Overview
PINGXUAN KCh-1006A Viscometer Thermostatic bath is a microcomputer precision thermostatic control device, using a single-chip microprocessor, self-tuning PID adjustment and imported Pt100 temperature sensor technology. Its well-designed heating system heats up quickly, and the overall foaming process has excellent heat insulation performance. With professional circulation stirring design, it ensures good Temperature uniformity of the liquid in the tank. Temperature Fluctuation can reach +/- 0.03 ℃, Display resolution 0.01 ℃. This equipment can provide closed-loop thermostatic for Viscometers (such as NDJ-79) to ensure the constant temperature of the measured liquid, making it an ideal choice for High Accuracy thermostatic experiments in research institutes, universities, corporate laboratories and Quality control departments.
Features
1. Adopt microcomputer precision thermostatic Control system, integrated single-chip microprocessor and self-tuning PID adjustment.
2. Adopt imported Pt100 temperature sensor, accurate temperature control.
3. The heating system is well-designed, with fast heating speed and good effect.
4. The tank body adopts the overall foaming process, which has good thermal insulation performance and effectively reduces the loss of cooling capacity.
5. Professional circulating mixing design ensures that the liquid in the tank has good horizontal and vertical Temperature uniformity.
6. Temperature Fluctuation is small (+/- 0.03 ℃), Display resolution is high (0.01 ℃).
7. The inner tank is made of all stainless steel 304, and the box is made of anti-static spraying process, which is durable and beautiful.
8. It can be connected to a Viscometer (e.g. NDJ-79) to form a closed-loop system to precisely control the temperature of the measured liquid.
Principle
The Thermostatic bath receives the real-time temperature signal fed back by the imported Pt100 temperature sensor through the microcomputer Control system, is calculated by the single-chip microprocessor, and uses the self-tuning PID algorithm to precisely adjust the Power output of the heating system to achieve fast and stable temperature control. The professional circulation pump continuously stirres the liquid in the Tank to ensure uniform heat distribution, thus maintaining a High Accuracy, uniform thermostatic environment at the set temperature point (any point between room temperature and 100 ° C). When connected to the Viscometer, a closed loop is formed through the inlet and outlet pipes, so that the liquid flowing through the Viscometer remains thermostatic at all times.
Applications
Bioengineering, Food, Chemical, Metallurgy, Petroleum, Research institutes, Colleges and universities, Factory laboratories, Quality control departments
Standards
The data did not mention specific compliance criteria
Steps
1. Place the Thermostatic bath on a smooth countertop and connect the power supply.
2. Add an appropriate amount of heat transfer medium (such as deionized water) to the Tank.
3. Turn on the power switch and set the required target temperature through the control panel.
4. Start the heating and circulation pump, and the equipment starts to heat up and stir.
5. When the temperature reaches the set value and stabilizes (temperature fluctuations within +/- 0.03 ° C), it can be used.
6. To connect a Viscometer (e.g. NDJ-79), connect the outlet pipe of the Thermostatic bath to the inlet pipe of the Viscometer, and connect the inlet pipe of the Thermostatic bath to the outlet pipe of the Viscometer to form a closed-circuit circulation system.
7. After use, turn off the heating and circulation pump, and then turn off the power switch.
Notice
* Before use, please ensure that the equipment is well grounded and placed in a ventilated, drying, non-corrosive gas environment.
* Tank heat medium level should be kept within a reasonable range to avoid dry burning.
* The set temperature must not exceed the maximum Operating temperature of the equipment (100 ° C).
When connecting or disconnecting external circulation lines (e.g., connecting Viscometer), ensure that the equipment is turned off or suspended.
* Experiments show that temperature deviation has a significant impact on liquid viscosity measurement. Temperature deviation of 0.5 ° C may lead to viscosity deviation of more than 5%. Therefore, when conducting viscosity measurement, be sure to keep the temperature of the measured liquid near the specified temperature point. It is recommended that the temperature deviation does not exceed 0.1 ° C.
* Regularly clean the Tank to prevent impurities from affecting the temperature field uniformity and sensor accuracy.
When the equipment malfunctions, do not disassemble it yourself. You should contact a professional for maintenance.
