SBL-108DT constant temperature ultrasonic cleaning machine
Introduction: SBL series constant temperature ultrasonic cleaning machine is a special instrument specially developed for chemical reaction, chemical synthesis, biopharmaceutical synthesis, biological material degradation, recombination, Chinese medicine extraction, and temperature control cleaning of precision instrument parts that require constant temperature and ultrasound. The instrument is easy to use, and the ultrasonic power, time and temperature can be set. In addition, the working parameters have power-off memory and temperature accuracy of ±2°C, which cannot be achieved by ordinary ultrasound, and can meet the different experimental requirements of experimenters. Features: 1. Power-off protection Working parameters power-off memory function 2. Time adjustable 1-999min total working time setting 3. The LCD screen displays the remaining time and the actual temperature in the tank 4. Heating function, heating temperature can reach 90℃ 5. Cooling function Fast cooling speed, the lowest temperature can reach 5℃ 6. Adjustable power 40%-100% adjustable power Technical Parameters: Model: SBL-108DT Inner groove (length. width. height (mm) L/W/H): 600*600*300 Frequency (KHz): 40 Capacity (L): 108 Setting temperature (℃): 5-90 Ultrasonic power (W): 1800 Heating power (W): 6000 Cooling power (W): 2250 Timing (min): 1-999 Inlet and drainage: manual/automatic Noise reduction cover basket: Yes
Introduction: SBL series constant temperature ultrasonic cleaning machine is a special instrument specially developed for chemical reaction, chemical synthesis, biopharmaceutical synthesis, biological material degradation, recombination, Chinese medicine extraction, and temperature control cleaning of precision instrument parts that require constant temperature and ultrasound. The instrument is easy to use, and the ultrasonic power, time and temperature can be set. In addition, the working parameters have power-off memory and temperature accuracy of ±2°C, which cannot be achieved by ordinary ultrasound, and can meet the different experimental requirements of experimenters.
