Product Overview:
The three-gas incubator is an advanced instrument for cell, tissue, and bacterial culture, an essential key equipment for conducting immunology, oncology, genetics, and biotechnology research, widely used in scientific research and production in microbiology, agricultural science, and medical experiments.
Structural Features:
Next-generation large-screen true-color touch screen computer-controlled triple-gas incubator, capable of accurately and intuitively controlling the incubator's temperature and gas concentration. It addresses the technical issues of the existing technology, which cannot achieve human-machine interaction and cannot provide clear data image display and parameter configuration interface. It features reliability, simplicity, intuitiveness, and ease of operation.
Utilizing a gas jacket structure, the chamber is constructed from high-quality stainless steel plates and features air ducts. Equipped with a fan, it creates forced convection, enhancing the uniformity of the internal temperature and the balance of CO2 and O2 concentrations.
When the box door is opened, the automatic shutdown of the fan (closing the CO2 and nitrogen intake valves) stops heating, and reduces the entry of air to prevent contamination.
Temperature control with microcomputer data analysis and intelligent PID control, featuring high accuracy, strong anti-interference capability, and using three probes to separately control the cabinet and door temperatures, ensuring precise and minimal fluctuations in the workroom temperature.
Touch-sensitive adjustment switches, lightweight and flexible; parameters for display and setting are all digitally displayed, with each working state indicated by an LED.
Equipped with multiple protection functions such as over-temperature gas cutoff, ensuring the operation of the equipment.
Utilize sterile gas filtration systems and UV sterilization lamps to minimize contamination.
Natural evaporation humidification to maintain a comfortable temperature in the studio.
O2 inspection utilizes imported infrared waveguides and gold-plated probes to ensure precise measurement data. The O2 concentration in the lab can be set freely between 0~20%. The control system employs microcomputer data analysis with intelligent PID control, without exceeding concentration limits, slow rise in concentration, or gas cutoff alarms. O2 detection also uses imported probes to guarantee accuracy, with the indoor O2 concentration adjustable between 1~25%. The control is via microcomputer data analysis and intelligent PID control, without exceeding concentration limits, slow rise in concentration, or gas cutoff alarms.
