SU1041975A1 - Air electric conductivity measuring device - Google Patents

Abstract

DEVICE FOR MEASUREMENT OF ELECTRICAL CONDUCTIVITY OF AIR, containing three-section suction. measuring capacitor, a source of direct voltage, a fan and a recording unit, which is .4 aushea so that, in order to increase reliability by eliminating the influence of parasitic currents of insulators, it is supplied with a source of pulsating voltage, electrometric amplifier and synchronous detector, and one of the plates of the three-section measuring capacitor is made in the form of three isolated one from another sections, the first of which is connected to the source of the pulsating voltage, the second section one side of the measuring capacitor, one third of the section to the input of an electrometric amplifier, one output of which is connected to a constant voltage source, and the other through an inserted separation element to the input of a synchronous detector, another input (L of which is connected to a source of pulsating voltage, and the output to the recording unit.

Description

This invention relates to a measurement technique in meteorology. A device for measuring the electrical conductivity of air is known, which contains a grounded inlet pipe, an outer conductor and an inner electrode, the inner electrode being designed as a collecting electrode and a protective electrode insulated from one another and located inside the inlet pipe and connected to earth. The reliability of the device operation is low due to the sensitivity of the main insulators to the action of moisture and dust. The closest to the proposed technical essence and the achieved result is a device for measuring the electrical conductivity of air containing a three-section aspiration measuring capacitor, a source of constant and voltage, a fan and a recording unit, and to eliminate the edge effect, electrostatic protection is installed in the device 2, V In the known device, a constant voltage is applied to the first section of the measuring capacitor, and the current of the ions is not modulated. The aim of the invention is to increase reliability by eliminating the influence of parasitic insulator currents. The goal is achieved by the fact that a device for measuring the conductivity of air containing a three-section suction. The measuring capacitor, a source of direct voltage, a fan and a recording unit are supplied with a source of pulsating voltage with an electrometric amplifier and a synchronous detector, and one of the plates of the three-section measuring capacitor is made of three isolated sections. connected to the source of a pulsing voltage, the second section - to the opposite plate of the measuring capacitor, a third section - to the input of the electrometric amplifier, one output of which oedinen source with constant voltage, and the other through a separating element inserted - to the input of the detector is a synchronous, the other input of which is connected to the source pulsirukvdego voltage and an output - to the recording unit. The drawing shows a functional block diagram of a device for measuring the electrical conductivity of air. The device consists of an aspiration measuring capacitor 1, one of whose tabs, for example externally, is divided into three sections 2, 3 and 4 along the stream. The first of sections 2 is connected to the source of the pulsating voltage 5, the second section 3 is electrically connected to the counter plate b of the measuring capacitor -1, and the third section 4 is connected to the electrometric amplifier 7, which, in turn, is electrically connected with and a constant voltage 8 .. The output of the electric amplifier 7 is connected to the input of the separating element 9 (a capacitor, an optocoupler, a transformer, etc. can be used as a separating element, and its output can be connected to the input of the synchronous detector 10. Synchronous detector 10 connected to the source of the pulsating voltage 5 and the recording unit 11. A measuring device 12 is connected to the measuring capacitor 1. The device operates as follows. The test air is drawn through the measuring capacitor 1 by means of the fan 12. The first section 2 of the measuring capacitor 1, due to the presence of a pulsating voltage on it, periodically filters the air flow from the light aeroins. The second section 3 shields the third section 4 from the induction action from the first section 2. The third section 4 is under a constant voltage of a certain sign and collects part of the ions of the opposite polarity. Air ions falling on the third section 4 create an electric current proportional to the conductivity of the air. The electric current flowing through the third section 4 is amplified by the electrometric amplifier 7. Due to the periodic filtration of the air flow from the ions, the first section 2 has a pulsating current. The output of the electrometric amplifier 7 is fed to a separating element 9, through which only a variable component passes. After passing through the separating element 9. the signal goes to the synchronous detector.10, which is synchronized with the source of the pulsating voltage 5. The signal after the synchronous detector 10 is detected by the device 11 and at its output is proportional only to the air conductivity and does not depend on the parasitic currents of the main insulators, since these currents are not modulated. As a result, the device remains operable with a significantly reduced resistance (about 10 ohms of the main insulators

310419754

compared with the prototype, barely- Using the adjustment values

Significantly, significantly reducing the:. voltages at the measuring state, the sensitivity of the main device and the air flow rate passing through the insulator to the action goes through it, and horses can be measured. The concentration of aerions.

Claims (1)

DEVICE FOR MEASURING ELECTRIC CONDUCTIVITY OF AIR, containing an aspiration three-section measuring capacitor, a constant voltage source, a fan and a recording unit, characterized in that, in order to increase reliability by eliminating the influence of stray currents of insulators, it is equipped with a pulsating voltage source, an electrometric amplifier and a synchronous detector, and one of the plates of the three-section measuring capacitor is made in the form of three sections isolated from one another, the first of the cat rykh connected to a source of pulsating voltage, the second section to the opposite lining of the measuring capacitor, the third section to the input of the electrometric amplifier, one output of which is connected to a constant voltage source, and the other through the input of the separation element with an input of a synchronous detector, the other input of which is connected to pulsating voltage source, and the output to the recording unit. Wed SR m cm> I