SN-C1200 Constant Temperature Focused Ultrasonic Extraction Instrument Introduction: The energy gathering constant temperature ultrasonic extractor is a new type of extraction equipment that combines modern ultrasonic technology and intelligent low-temperature constant temperature system. It uses the cavitation effect of ultrasonic waves to increase the frequency and speed of material molecules, thereby increasing the penetration of solvents and improving the dissolution rate of extracted components. Meanwhile, the secondary effects of its ultrasound, such as thermal and mechanical effects, can also accelerate the diffusion of the extracted components and fully mix with the solvent, thereby achieving efficient and rapid extraction processes. characteristic: 1. More complete response: Ultrasonic technology combined with intelligent temperature control system, extraction is more complete and efficient 2. Intelligence: The extraction process can automatically adjust and track the frequency, achieving the best reaction effect according to the reaction environment 3. More constant and accurate temperature: While the sample temperature can be monitored in real time, the use of a magnetic stirrer makes the material temperature more uniform and constant 4. Flexible parameters: power, time, and temperature are adjusted according to extraction requirements, and automatically stop when the set value is reached, adapting to safe extraction of different types of samples Technical parameters: Specification and model: SN-C1200 Frequency: 20-25KHz Display mode: Touch 7-inch Ultrasonic power: 1000W Random amplitude lever: 15mm Crushing capacity: 800mL Temperature: 0-99 ° C Run time adjustment: 0-960min Cooling capacity: 700W Heating power: 1000W
Introduction: The energy gathering constant temperature ultrasonic extractor is a new type of extraction equipment that combines modern ultrasonic technology and intelligent low-temperature constant temperature system. It uses the cavitation effect of ultrasonic waves to increase the frequency and speed of material molecules, thereby increasing the penetration of solvents and improving the dissolution rate of extracted components. Meanwhile, the secondary effects of its ultrasound, such as thermal and mechanical effects, can also accelerate the diffusion of the extracted components and fully mix with the solvent, thereby achieving efficient and rapid extraction processes.
