-
Each brand of thermostatic oscillator uses a different operation, so let the purchase help you find out who bought this instrument from, and you can ask the person who sold you.
Suzhou Hisiyuan
Benchtop thermostatic oscillator.
-
First of all, clamp the sample that needs to be shaken and cultured on the stainless steel spring and lower fixture, turn on the power supply (plug the randomly matched power plug into the power socket of the machine and the external power socket respectively), close the oscillation source switch (lift down) indicator light, indicating that the power supply in the machine has been turned on, and select the timer to the time you need.
The whole machine should be placed on a firm work surface or a flat and dry ground, and the environment should be clean and humid-free and well ventilated. The power socket provided by the user should have good grounding measures to prevent the shell from inducing electricity. It is strictly forbidden to move the machine during the normal operation of the leather.
It is strictly forbidden for objects to hit the machine.
Fill the test bottle and keep it balanced, and in the case of a dual-function model, set the oscillation mode. (See the last diagram for detailed settings) turn on the power supply, set the timer according to the scale on the surface of the machine, if you need to work for a long time, adjust the timer to the "normally on" position.
Put it into the test bottle and keep it balanced, if Xinhu is a dual-function model, set the oscillation mode. Turn on the power supply, set the timer according to the scale on the surface of the machine, and if you need to work for a long time, adjust the timer to the "normally open" position.
Put it into the test bottle, and keep the balance, if it is a dual-function model, set the oscillation mode to turn on the power supply, set the timing time according to the scale on the surface of the machine, if you need to work for a long time, adjust the timer to the "normally open position".
Performance and characteristics of thermostatic oscillator: temperature control mode: microcomputer temperature control is adopted, the temperature control is accurate, and there is no overtemperature overshoot phenomenon.
Oscillation mode: there are three modes: gyratory type, round-trip type, and dual-function mode. (I choose it at the time of ordering) liner material:
High quality stainless steel, universal spring clamps, different fixtures can also be designed according to requirements.
-
How to use the digital water bath thermostatic shaker:
1. First inject water into two-thirds of the height of the water tank, then turn on the power supply, dial the temperature control switch to the ON gear, about 1 minute later, the upper row of the instrument is displayed with red digital 400, the lower row is, after 30 seconds of stationary, the upper row displays the value of the current water temperature, press the SET key, the upper row displays SP, press or key, when the lower row is displayed as the desired set temperature, click SET twice in a row, so that the upper row is displayed as the real temperature in the body, and the lower row is the preset value. The instrument enters normal working condition.
2. Heating timing setting, click the SET button, the upper row displays SP, click the SET key again, the upper row displays ST, the lower row displays the required constant temperature timing time, press or key to make the lower row display the required timing time (the timing time is to enter the constant temperature state to start timing), click the SET button again, so that the upper row is displayed as the actual temperature in the volume, and the lower row is the preset temperature value. The instrument enters normal working condition. The timing time is countdown, the timing time is completed, there is an alarm output, the alarm is four times, the alarm is stopped, and there is no output for heating at this time.
3. Turn on the oscillation switch, adjust the timing knob, adjust the time required to oscillate (0-120 minutes), or put it in the normally open position, and then adjust the speed knob to select the desired oscillation speed according to your needs.
4. After use, put the speed knob in the smallest position, turn off the power switch, cut off the power supply, and then drain the water in the box and wipe it clean to prolong its service life.
-
Turn on the power and the self-test will end in about one minute. If "000" is displayed, the sensor is open or the input signal is out of range.
Press the set button to set the temperature, press the set key to flash the data in the lower row of the code tube, indicating that the instrument has entered the temperature setting state, the key set value increases, the key set value decreases, and then press the set button to return to the normal working state The temperature setting is completed.
The displayed value can be corrected when it is confirmed that the value displayed by the meter is not the correct measured value. Press the SET button for 3 seconds to enter the inner menu of the instrument, and select the parameter SC and match with the OR key to modify this parameter. The correction range of the sensor error is 50 to.
50, after the correction is completed, press the set button for 3 seconds to exit. The correction value of the meter is 0 when it leaves the factory, and it is necessary to prevent the correct meter from being corrected to the wrong point when it is used.
The self-tuning function of the instrument: this product can adapt to most of the control systems, only when the control effect is particularly unsatisfactory, WAGO starts the self-tuning, press the SET button for 3 seconds to enter the inner menu of the instrument, select the parameter AT and cooperate with the OR key to open the self-tuning, at this time the AT indicator light begins to flash the instrument to enter the working state of the automatic tuning parameters, the instrument collapses the meter and controls the heating system to fluctuate twice near the set point, and when the AT light goes out, the self-tuning chain ends, and the new PID parameters are locked in the chip.
7. Turn on the oscillation switch, the indicator light is on, and slowly adjust the speed control knob to the required speed.
8. After the work is completed, put the temperature control button and speed control knob to the minimum value and cut off the power supply.
-
Thermostatic shaker, also known as thermostatic shaker, includes: water bath thermostatic shaker, oil bath thermostatic shaker, air bath thermostatic shaker, and other three categories, it is mainly suitable for large and medium-sized universities, medical, petrochemical, health and epidemic prevention, environmental monitoring and other scientific research departments for biological, biochemical, cell, strains and other liquid and solid compounds of oscillatory culture. The product has the characteristics of reasonable structure, easy operation and high stable performance, and is an ideal equipment for laboratory staff.
Thermostatic oscillator performance and features:
1. Temperature control mode: microcomputer temperature control is adopted, the temperature control is accurate, and there is no over-temperature overshoot.
2. Oscillation mode: there are three modes: gyratory type, round-trip type, and dual-function mode. (Choose when ordering) 3. Liner material: high-quality stainless steel, universal spring fixture, and different fixtures can also be designed according to requirements.
4. Shell material: electrostatic spraying on the surface of high-quality cold plate, anti-rust, prolonging service life.
5. Motor type: permanent magnet DC motor, small size, large power, long service life, and low noise.
6. Speed regulation mode: stepless speed regulation, microcomputer closed-loop control speed regulation mode can also be selected (speed display, speed deviation is 0).
7. Safety category: leakage protection, automatic power-off function, over-temperature protection and sound and light alarm.
8. Timing range: 0-120 minutes or 0-9999 minutes of microcomputer timing and normally open function. di
-
The types of thermostatic oscillators include air bath thermostatic oscillators with constant air temperature, water bath thermostatic oscillators with constant temperature with water, and full thermostatic oscillators from 0 to 50.
-
1. The utensils should be placed on a firm working surface, and the environment should be clean and tidy, with good ventilation.
2. The power socket provided by the user should have good grounding measures.
3. It is strictly forbidden to move the machine during normal operation.
4. It is strictly forbidden for objects to hit the machine.
5. It is strictly forbidden for children to approach the machine to prevent accidents.
6. Make sure the power supply has been cut off before replacing the fuse.
7. After use, please clean the machine, and there can be no water droplets and dirt residues.
Suzhou Hisiyuan
-
1. Cyclotron oscillation: This working mode is also called circular oscillation, which rotates and oscillates 360° on the horizontal plane, for example, working in this way, the liquid being oscillated is in a vortex state in the container to achieve a uniform effect.
2. Reciprocating oscillation: As the name suggests, it is a round-trip oscillation when oscillating, and the inertia is used to oscillate the sample. Because when the liquid is thicker, this oscillation is much more effective than whirlpool oscillation.
3. Dual-function oscillation: that is, it combines the two modes of gyration and reciprocating oscillation. Depending on the characteristics of the sample and the work requirements, you can choose any working mode.
There are two main types of thermostatic oscillators: water bath thermostatic oscillator and air bath thermostatic oscillator, and the main differences are as follows: >>>More
The electric field can reach its maximum, the magnetic field energy is zero, and the induced current in the loop is i=0. Discharge completed (charging started): the electric field energy is zero, the magnetic field can reach the maximum, and the induced current in the loop reaches the maximum. >>>More
The difference between an LC resonant circuit and an LC oscillation circuit. >>>More