With RS232 Communication interface, high-efficiency switching power supply and simple optical path design, with a reasonable sample holder, can effectively avoid light leakage, to ensure accurate and stable measurement.
With programmed vacuum cycle control, the maximum number of cycles is 99 times, and the drying time is shortened by more than 50% compared with the traditional method; equipped with a digital vacuum Gauge, the control accuracy is +/- 1% to ensure a stable vacuum environment.
The digital vacuum Gauge is used to automatically control the Vacuum Level, with an accuracy of +/- 1%; the heating element is located in the Shelf of the box to shorten the heating time by 50%; the special aluminum shelf conducts heat quickly and does not oxidize at high temperature, effectively improving the drying efficiency.
Cuboid studio improves volume utilization, drying time is reduced by more than 40%; Temperature range RT + 10~ 200 ℃, Vacuum Level 133Pa; double-decked Glass door is easy to observe, can be filled with inert gas anti-oxidation, stainless steel liner is durable and easy to clean.
Elliptical trajectory vertical vibration design, vibration Frequency 660 times/min, maximum load 30KG, equipped with automatic cooling down system to maintain sample temperature stability, closed structure to reduce noise and pollution risk.
The cuboid studio improves the effective volume utilization rate and reduces the drying time by more than 40%; the box door is made of tempered bulletproof double-decked Glass for easy observation, and the studio is made of stainless steel, which is durable and easy to clean; Vacuum Level reaches 133Pa, Temperature range RT + 10~ 200 ℃.
The cuboid studio improves space utilization, the microcomputer temperature control accuracy reaches +/- 1 ° C, and the drying time is reduced by more than 40%; double-decked tempered Glass doors are easy to observe, and synthetic silicon door seals ensure high Vacuum Level maintenance.
The cuboid studio is used to improve space utilization, and the drying time is reduced by more than 40% compared with traditional equipment; double-decked tempered Glass doors are easy to observe, and mechanical Dial vacuum Meters can achieve 133Pa Vacuum Level, which supports inert gas environment to prevent oxidation.
The cuboid studio improves the space utilization rate, the microcomputer temperature control accuracy reaches +/- 1 ° C, and the drying time is shortened by more than 40%; the double-decked tempered Glass door is easy to observe, and can be filled with inert gas to prevent oxidation. Vacuum Level reaches 133Pa.
The digital pressure sensor is used to automatically control the Vacuum Level, with accuracy +/- 1%; the programmed vacuum cycle can shorten the drying time by more than 50%; 7 groups of 63-step temperature programming realize the control of the rising and cooling rate, and the studio stainless steel material is durable and easy to clean.
Cuboid Studio improves space utilization, temperature control accuracy +/- 1 ℃, drying time is shortened by more than 40%; double-decked tempered Glass door is easy to observe, can be filled with inert gas to prevent oxidation, Vacuum Level up to 133Pa.
Vibration Frequency 660 times/min, maximum load 30KG, elliptical trajectory motion to ensure that the sample test conditions are independent and equal, equipped with automatic chill down system to maintain temperature stability.
Cuboid Studio improves volume utilization, drying time is reduced by more than 40% compared with traditional Vacuum Chamber, Temperature range RT + 10~ 200 ℃, Vacuum Level up to 133Pa, double-decked Glass door is easy to observe.
Equipped with programmed vacuum cycle function, drying time is shortened by more than 50%, temperature control accuracy +/- 1 ℃, support 7 groups of 63-step Program settings, digital Vacuum Level control accuracy +/- 1%.
The vacuum environment effectively reduces the boiling point of the liquid and prevents the analysis of heat-sensitive substances; the Vacuum Level < 133Pa ensures efficient drying; the microcomputer PID control realizes accurate temperature control; the multi-layer independent heating system makes the temperature distribution more uniform.
