RU2785605C2 - Stand for study of aeroionizer - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: device relates to the field of electrical engineering; it can be used as laboratory equipment in scientific researches and educational process for taking characteristics of aeroionizers used in agricultural sectors. The new thing is that a front panel is additionally equipped with an aeroion meter, wherein an aeroion flow indicator is located between an aspiration chamber of the aeroion meter and a cassette with aeroionizer electrodes, and magnitudes of current and voltage in an aeroionizer circuit are tracked by a microammeter and a kilovoltmeter, respectively, connected, by means of a mnemonic circuit, through the aeroionizer, to the ammeter and the voltmeter.

EFFECT: increase in the accuracy of measurement and facilitation of taking characteristics of an aeroionizer.

1 cl, 1 dwg

Description

The invention relates to the field of electrical engineering and can be used as laboratory equipment in scientific research and educational process to measure the characteristics of air ionizers used in agriculture.

Known is the control unit for the installation of electric cleaning and air ionization UOV-1 (Electrotechnological installations: laboratory workshop / comp.: E.M. Zayats [et al.]. - Minsk: BGATU, 2010. - S. 147, 148 - analogue), containing voltage regulator, "High voltage" lamp, toggle switch for turning on the unit, "High-voltage unit" lamp, fuses, "Network" lamp, fan switch buttons.

The disadvantage of this device is the difficulty of characterization, since the control unit does not contain measuring instruments.

Known unipolar corona air ionizer-nozzle (Gaiduk V.N., Shmigel V.N. Workshop on electrical technology. - Moscow: Agropromizdat, 1989. - S. 150, 151 - prototype), containing a corona air ionizer, precipitation and corona electrodes, a high-voltage source , microammeter, kilovoltmeter.

A disadvantage of the known device is that measurements are made without monitoring the magnitude of the supply voltage and the possibility of indicating the direction of the flow of air ions, which leads to low accuracy in measuring the characteristics of the air ionizer.

The objective of the invention is to improve the measurement accuracy and facilitate the removal of the characteristics of the air ionizer.

The technical result, in contrast to the known technical solutions, is achieved by the fact that the front panel is additionally equipped with an air ion counter, moreover, an air ion flow indicator is located between the aspiration chamber of the air ion counter and the cassette with electrodes of the air ionizer, and the current and voltage values in the air ionizer circuit are monitored by a microammeter and a kilovoltmeter respectively, connected by means of a mnemonic circuit through an air ionizer with an ammeter and a voltmeter.

In FIG. a stand for the study of the air ionizer is presented.

The stand for the study of the air ionizer contains a front panel 1 (Fig.), with a mnemonic diagram 2. On the front panel 1 there is an automatic switch 3, a signal lamp 4, a toggle switch 5, an air ion counter 6, an air ionizer 7 with a button to turn on the air ionizer 8 and a cassette with electrodes 9 , ammeter 10, voltmeter 11, autotransformer handle 12, microammeter 13, kilovoltmeter 14, air ion flow indicator 15. On the air ion counter 6 there is a “calibration” button 16, a “zero” setting button 17, a negative air ion scale display 18, a positive air ion scale display 19, start button 20, aspiration chamber 21.

Stand for the study of air ionizer works as follows.

To prepare the stand for the study of the air ionizer for work, turn on the automatic switch 3, located on the front panel 1. The signal lamp 4 lights up, indicating the presence of voltage in the network. At the same time, using the handle of the autotransformer 12, set the nominal voltage, for example, 220 V, according to the voltmeter 11. After turning on the toggle switch 5, the voltage is applied to the air ion counter 6, which is prepared for operation by pressing the "calibration" button 16. Then, using the installation button "zero" 17 set zero values for the number of air ions on the negative air ions scale display 18 and the positive air ions scale display 19. Next, the start button 20 is pressed and the aspiration chamber 21 is opened, through which air is sucked into the air ion counter 6. Next, the air ionizer 7 is put into operation. using the button for turning on the air ionizer 8, and the ammeter 10 will show the load current. The flow of air ions from the cassette with electrodes 9, passing through the air ion flow indicator 15, rushes directly into the aspiration chamber 21. The microammeter 13, installed in the circuit of the air ionizer 7, will indicate the current, and the kilovoltmeter 14 - voltage.

Then, using the handle of the autotransformer 12, the voltage value is set different from the nominal value, for example, 210 V, by the voltmeter 11, while monitoring the change in the load current by the ammeter 10, as well as the change in the current in the circuit of the air ionizer 7 by the microammeter 13 and the voltage by the kilovoltmeter 14, connected each other using the mnemonic circuit 2. Further, the experiment is continued at other voltage values, set using the handle of the autotransformer 12.

Improving the accuracy of measurement and facilitating the removal of characteristics of the air ionizer is achieved by the following design features:

1. The presence of a mnemonic diagram on the front panel of the stand makes it easier to understand the measurement process;

2. The location of all measuring instruments on the front panel allows the experimenter to carry out all measurements alone, tracking the readings in real time, and the location between the aspiration chamber and the cassette with electrodes of the air ion flow indicator makes it clear and convincing that there is a path for the flow of air ions, which together increases measurement accuracy and facilitates characterization.

The air ionizer research stand is simple in design, reliable in operation and can be used in agricultural production, in experimental laboratories and in the educational process.

Claims (1)

A stand for studying an air ionizer, containing an air ionizer, a microammeter, a kilovoltmeter, characterized in that the front panel is additionally equipped with an air ion counter, moreover, an air ion flow indicator is located between the aspiration chamber of the air ion counter and the cassette with electrodes of the air ionizer, and the current and voltage in the air ionizer circuit are monitored by a microammeter and kilovoltmeter, respectively, connected by means of a mnemonic circuit through an air ionizer with an ammeter and a voltmeter.

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