Water Bath and water Bath are integrated to achieve dual-use, using one-time stamping stainless steel liner for easy cleaning, temperature control accuracy +/- 0.3 ℃, equipped with water shortage and air burning and independent temperature limit safety system to ensure safe operation.
With water Bath thermostatic oscillation and low temperature refrigeration dual functions, thermostatic range 0-100 ℃, temperature accuracy +/- 0.5 ℃, support reciprocating oscillation and digital constant speed operation, suitable for a variety of sample fostering needs.
Temperature range RT + 5~ 99 ℃, Fluctuation +/- 0.3 ℃, set water Tank and Water Bath as a whole, one-time stamping forming stainless steel liner, with water shortage anti-air burning and independent temperature limit alarm system to ensure safe operation.
With water shortage and air burning function, Temperature Fluctuation +/- 0.3 ℃, Temperature range RT + 5~ 99 ℃, integrated sink and water Bath dual-use, easy to clean and safe operation.
High temperature control accuracy, Temperature Fluctuation ≤ +/- 0.5 ℃, equipped with circulating pump flow ≥ 4L/min, to ensure uniform water temperature, strong corrosion resistance, compact structure, suitable for a variety of experimental scenarios.
The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, with a Temperature Uniformity of +/- 0.0050 ° C, and multiple safety functions such as low water level protection and temperature runaway alarm.
The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, and the U-shaped return design realizes a high degree of uniformity in the temperature field, with a temperature control accuracy of +/- 0.0050 ° C. It has multiple safety functions of low water level protection and Compressor.
The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field. Temperature Uniformity reaches +/- 0.0050 ℃, with low water level protection and temperature runaway alarm function to ensure the safety and stability of the experiment.
The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, and the U-shaped return design realizes Temperature Uniformity +/- 0.0050 ℃, with low water level protection and Compressor multiple safety protection functions.
The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, and the U-shaped return design realizes turbulence and high uniformity, Temperature Uniformity +/- 0.0050 ℃, with multiple safety functions such as low water level protection and temperature loss protection.
Adopt non-heat centrifugal circulating pump to avoid its own heat generation affecting the temperature field, Temperature Uniformity +/- 0.0050 ℃, with low water level protection and temperature runaway alarm and other safety functions, accurate and stable temperature control.
The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field, U-shaped return design to achieve turbulence and high uniformity, Temperature Uniformity +/- 0.0050 ℃, resolution 0.0001 ℃, with low water level protection and Compressor multiple safety functions.
The non-heat centrifugal circulating pump is used to avoid its own heat generation affecting the temperature field. Temperature Uniformity reaches +/- 0.0050 ℃, with low water level protection and anti-dry burning functions, to ensure the safe and stable operation of the experiment.
Temperature range -10 ℃, Tank volume 10L, using fully enclosed Compressor unit and circulating water pump, energy saving and prevent scaling pollution of circulating water, protect the normal operation of the instrument.
Adopt stainless steel liner and microcomputer intelligent temperature control system, Temperature Fluctuation +/- 0.2 ℃, resolution 0.1 ℃, with over-temperature water cut-off alarm function, built-in circulating water pump can output thermostatic water flow.
