Mold incubator use method

Fill the water tank with pure water according to the instructions, insert the ultrasonic atomizer power cord into the rear panel diagram (2) " humidifier control socket", insert the soft plastic sleeve at the exit of the ultrasonic atomizer, and One end is inserted in the top plate schematic (3) "air intake", at this time the ultrasonic atomizer has been connected to the host.

5. Plug in the power of the host and press the power switch “1” on the right side of the panel. At this time, the instrument displays a digital display, indicating that the device enters the working state. See the control panel for each parameter setting. The setting method is as follows:

(1) Temperature/time switch for temperature and time switching:

1) Temperature setting: Press the temperature/time button and the temperature setting indicator of the meter will light. Press the SET button to enter the SV state, then press the ∨ or ∧ button to change the temperature set value to the desired temperature (minimum 0 °C). Finally, press the SET button to save the set value to the MCU. The window displays the measured temperature and the right display shows the set temperature.

2) Time setting: Press the temperature/time button, the meter's time setting indicator lights. Press the SET button to enter the TV state and then press the ∨ or ∧ button to change the time setting value until the required time (minimum 1h), and finally press the SET button to save the set value to the MCU, then the left display window The measurement time is displayed, and the right display window shows the set time.

Timing function: When the instrument is powered, the timing function starts. After the timing is over, the output is turned off. The heater and the refrigeration compressor stop working, and the temperature inside the incubator will gradually reach the ambient temperature.

3) Status indication: After the setting is completed, the device runs according to the set parameters. When the measured temperature is lower than the set temperature, the device enters the heating state and the heating indicator lights. Conversely, when the measured temperature is higher than the set temperature, the cooling indicator lights up and the device enters the cooling state. When the measured temperature is higher than the set temperature by 4 °C, the alarm indicator lights and the buzzer sounds.

4) Parameter modification: If you want to modify the temperature and time parameters during operation, modify it according to the procedures 1 and 2.

5) Quick setting: When setting parameters, one of the three numbers will flash. If you press the ∧ key, the last digit of the set value will increase by one; if you press this button, it will not open, after about 3 seconds, set The set value is continuously increased by 1; if the ∨ key is pressed, the set value is decreased by 1; if the hold is not released, the set value is continuously decreased by 1 after about 3 seconds.

(2) Humidity setting

1) Humidity setting: press the “humidity setting” button, the “upper limit setting” indicator (red) of the window will be on. Press the ∨ or ∧ key to change the humidity setting value to the required humidity, and then press Under the “humidity setting” button, the “lower limit setting” indicator (green) of the window is on. Press the ∨ or ∧ key to set the lower limit humidity, then press the “humidity setting” button to “work” the window. The indicator light (red) is on, indicating that the microcomputer is in automatic operation. The "lower limit setting" humidity value differs from the "upper limit setting" humidity value by 2% (recommended value 1% to 5%), and the user can also set it according to the actual situation.

2) Parameter modification: If you want to modify the humidity parameter during operation, modify it according to program 1.

3) Quick setting: When setting the parameters, if you press the ∧ key, the last digit of the set value will be increased by 1. If you press this button, the setting value will be incremented by 1 after about 3 seconds; if you press ∨ If the key is pressed, the set value is decremented by 1. If the key is pressed and not released, the set value is continuously decreased by 1 after about 3 seconds.

4) status indication: When the humidity inside the humidity does not reach the lower limit is set, the indicator light and humidification, humidification nebulizers work, humidity rises to set the lower limit of the humidity after the humidifying intermittently, until the stop limit humidity Humidification. Allow the humidity to fluctuate within the required range. When the humidity meter displays EFF, it is an overflow display, and the actual humidity is outside the hygrometer display range. At this point, the outer door of the incubator can be opened, and the display will automatically resume after a period of time. If the humidity is low, it can be humidified.

Electrostatic Precipitator
The principle of electrostatic precipitator is to use high voltage electric field to ionize the smoke. The dust charge in the airflow is separated from the airflow under the action of electric field. The negative electrode is made of metal wires with different cross-section shapes, called discharge electrodes.
Positive electrodes are made of metal plates of different shapes, called dust collecting electrodes. The performance of electrostatic precipitator is affected by three factors, such as dust property, equipment structure and flue gas velocity. The specific resistance of dust is an index to evaluate the conductivity. It has a direct effect on the efficiency of dust removal. When the resistance is too low, the dust particles are hard to keep on the dust collecting electrode, causing them to return to the airstream. When the specific resistance is too high, the charge of dust particles reaching the Dust Collector is not easy to release. The voltage gradient between the dust layers will cause partial breakdown and discharge. These conditions will result in a decrease in the efficiency of the dust removal.
Working principle
The basic principle of electrostatic precipitator is to collect dust in flue gas by electricity. It mainly includes four interrelated physical processes: (1) ionization of gases. (2) the charge of dust. (3) the charged dust moves toward the electrode. (4) the capture of charged dust.
The capture process of charged dust: on the two different metal anodes and cathodes with different radius of curvature, a high voltage direct current is used to maintain an electric field enough to ionize the gas. The electrons produced by the ionization of the gas, the anion and the cation, are adsorbed on the dust through the electric field, so that the dust can be charged. Under the action of the electric field force, the electrodes with different electrode properties move to the electrodes of different polarity and deposited on the electrode, so as to achieve the purpose of separation of dust and gas.
Characteristic
Compared with other dedusting equipment, electrostatic precipitator has less energy consumption and high dust removal efficiency. It is suitable for removing dust from 0.01 to 50 m in flue gas, and can be used in high temperature and pressure occasions. Practice shows that the larger the flue gas volume is, the more economical the investment and operation cost of electrostatic precipitator will be.
Technology of horizontal electrostatic precipitator with wide spacing
The HHD type wide spacing horizontal electrostatic precipitator is an introduction and reference of foreign advanced technology, combined with the characteristics of industrial furnace exhaust gas conditions in various industries in China, in order to adapt to the increasingly stringent emission requirements and the research and development of the WTO market standards. The results have been widely used in metallurgy, power, cement and other industries.
Optimum wide spacing and special plate configuration
The electric field intensity and the plate current distribution are more uniform, the drive speed can be increased by 1.3 times, and the trap dust is expanded to 101-1014 -cm in the range of resistance. It is especially suitable for the high resistance dust recovery of the waste gas of the vulcanized bed boiler, the new cement dry rotary kiln and the sintering machine and so on, and reduce or eliminate the reverse corona phenomenon.
A new RS corona line
The maximum length of up to 15 meters, with low halo voltage, corona current density, strong steel, never breakage, with high temperature resistance, resistance to heat change, combined with the top mode of blast cleaning effect is excellent. According to the concentration of dust, the corona wire density can be configured to meet the high dust concentration. The maximum allowable inlet concentration can reach 1000g/Nm 3.
Corona pole top vibrator
According to the theory of dust removal, the top electrode can be vibrated with strong vibration. Two optional ways of mechanical and electromagnetic can be adopted.
The free suspension of both yin and Yang
The dust collector and corona system of HHD electric dust collector use a three-dimensional suspension structure. When the exhaust gas temperature is too high, the dust collector and corona pole will expand freely in the three-dimensional direction. The collector system also specially designs the restraint structure of the heat resistant steel belt, which makes the HHD electric dust collector have a higher resistance to heat change and the commercial operation table. It is clear that the maximum temperature resistance of HHD electric dust collector is up to 390 degrees C.
Increase the acceleration of vibrator
The effect of dust cleaning is improved: the dust collector system has a direct effect on the efficiency of dust collecting. Most of the electric collector shows a decline in efficiency after a period of time. The main reason is the poor effect of the dust collecting plate. The HHD electric dust collector uses the latest impact theory and Practice results to change the traditional flat steel impact rod knot. It is constructed as a whole steel structure, and the structure of the side vibrator of the dust collector is simplified to reduce the drop weight by 2/3. The experiment shows that the minimum acceleration of the surface of the dust collector is increased from 220G to 356G.
Small area and light weight
As the discharge electrode system is designed by the top vibrator, and the unsymmetrical suspension design is used creatively for each electric field, and the design of the shell computer software is optimized by the American environmental equipment company, the total length of the electric dust collector is reduced by 3-5 meters and the weight is reduced by 15%.
High guarantee insulation system
In order to prevent the high voltage insulation material of the electrostatic precipitator from dewing and climbing, the shell is designed by the double inflatable roof of the heat storage. The electric heating adopts the latest PTC and PTS materials, and the bottom of the insulation casing is designed by the hyperbolic back blowing design, which completely eliminates the easy failure of the porcelain casing dew and creeping, and the maintenance and replacement are very convenient.
Matching L-C high system
High voltage control can be controlled by DSC system, upper computer operation, low voltage control using PLC control, and Chinese touch screen operation. The high voltage power supply uses constant current and high impedance DC power to match the HHD electrostatic precipitator body. It has the advantages of high dust removal efficiency, high specific resistance and high concentration.

Electrostatic Precipitator

Electrostatic Precipitator,High Pressure Electrostatic Precipitators,Tubular Electrostatic Precipitator,Tube Pole Type Electrostatic Precipitators

Botou Youjian Environmental Protection Equipment Co. LTD. , http://www.btdustmachine.com