UA31059U - Device for ionization of air - Google Patents

Abstract

A device for air ionization relates to ion-electron technology and may be used to provide the necessary level of ionization of air in life, medicine, production, cattle breeding, poultry keeping and other human kind of business.

Description

Description of the invention

The proposed useful model refers to ion-electronic technology and can be used to ensure the required level of air ionization in household, medicine, industry, animal husbandry, poultry farming and other areas of human activity.

A well-known electric air purifier (Pat. 2177837 RF IPC 7 VOZS3/00, VOZS3/38. - Zlektricheskii vozduzhoochisitel. - Bulletin invented. - 2002. - Mo7), which consists of a fan with an electric motor, a high voltage source, an ionizer located in the housing consists of coronating and non-coronating electrodes, a precipitator consisting of a set of plates that are connected through one, respectively, to the high-voltage and grounded terminals of the high-voltage source, as well as a dielectric drum, a dielectric pad and a collector.

The disadvantage of an electric air purifier is its poor performance due to the influence of air humidity on the emission of aeroions. then As a prototype, an air ionizer was selected (Ukrainian patent Mo26204 MPK N 01 in 47/02. - Air ionizer. -

The bulletin was invented. - 2007. - Mo14), consisting of two guiding metal casings, an electric fan, corona electrodes, insulators and a high voltage source.

The disadvantage of the device taken as a prototype is the impossibility of responding to changes in air humidity (when the air humidity increases, the concentration of aeroions in the air decreases), which prevents its wide application.

The useful model is based on the technical task of improving the device for air ionization by installing a pulse generator, a control multivibrator, a primary humidity-to-resistance converter, an electric signal amplifier and a voltage switch, and the output of the pulse generator and the output of two primary humidity-to-resistance converters are connected to the inputs of the control multivibrator, the output of which is connected to the input of the amplifier of electrical signals; the output of the amplifier of electrical signals is connected to the input of the voltage switch, from the output of which the signal is fed to the air ionizer. The use of this design will allow you to adjust the operating time of the air ionization device, which in turn will allow you to ensure a given level of concentration of ions in the air. b

The task is achieved due to the fact that in the device for air ionization, which consists of an air ionizer, which contains two guiding metal casings, an electric fan, corona electrodes, І) insulators and a high voltage source, in accordance with a useful model, a signal is applied to the input of the air ionizer output of the voltage switch, to the input of which a signal from the output of the amplifier of electrical signals is applied. at

The input of the amplifier of electric signals is connected to the output of the control multivibrator, the inputs of which are supplied with signals from the output of the pulse generator and the primary humidity-to-resistance converter. co

The use of a device for air ionization taking into account changes in air humidity with the help of a primary humidity-to-resistance converter allows to increase the efficiency of air ionization, namely to maintain a given level of concentration of ions in the air when the air humidity changes.

The technical essence and principle of operation of the proposed device is explained by graphic material, on which: what | | -

Fig. schematic diagram of the air ionization device of the industrial premises. c The proposed air ionization device consists of a pulse generator 1, which is built on resistors 6-8, 11 and 12, a capacitor 9, a single-junction transistor 10 and a bipolar transistor 13; voltage pulses from the voltage generator 1 are fed to the control multivibrator 2, which consists of 415 operational amplifier 15, capacitors 14 and 17, semiconductor diode 18, resistors 16, 19 and 20, and resistor 19 is the primary converter of humidity into resistance; signals from the control multivibrator are sent to the electric signal amplifier 3, which consists of resistors 21 and 23 and a bipolar transistor 22, and which is connected to a voltage switch 4 based on a semi-sistor and connected to an air ionizer 5. The air ionizer 5 is built on two guides metal casings 26, electric 50 fan 25, corona electrodes 27, insulators 24 and high voltage source 28. 1 The air ionization device works according to the following principle. When the supply voltage E is applied to the pulse generator 1 through the resistor b, the capacitor 9 is charged. When a voltage equal to the voltage "with the switching on of the single-junction transistor 10 is reached, on the capacitor 9, the conductivity of the p-p transition E-B1 of the single-junction transistor 10 increases sharply and the discharge of the capacitor 9 along the circuit E (single-junction transistor 10)-B2 (single-junction transistor 10) begins. - resistor 9. As a result, an ex is formed on resistor 8 - a falling short voltage pulse, which is fed through resistor 11 to the base B of bipolar transistor 13. s The discharge of capacitor 9 continues to a voltage equal to the turn-off voltage of single-junction transistor 10, after which conductivity p -p of the E-B1 transition of the single-junction transistor 10 drops sharply, the latter is closed and a new charge cycle of the capacitor 9 begins. In a positive voltage pulse from the single-junction transistor 10, the bipolar transistor 13 is unlocked and a voltage pulse of negative polarity is supplied to the input A of the operational amplifier 15 through the capacitor 14. As a result, a voltage of negative polarity appears at the output of the control multivibrator 2. When a voltage of negative polarity appears at the output of the operational amplifier 15, a voltage pulse of the same polarity is set at its input A. Recharging of the capacitor 17 begins and when it reaches a voltage that is equal to the voltage at the input A of the operational amplifier 15, the latter returns to its initial position (a voltage pulse of positive polarity is set at the output of the single-vibrator 2), which leads to the unlocking of the bipolar transistor 22 and the blocking of the semester 4 .

When the humidity of the air increases, the resistance of the resistor 19 decreases, which causes an increase in the voltage at the input A of the operational amplifier 15, which in turn causes an increase in the charging time of the capacitor 17 and, as a result, an increase in the duration of the voltage pulse entering the semi-conductor 4. An increase in the duration of the voltage pulse on half-circuit 4 leads to an increase in the duration of operation of the air ionizer 5, as a result of which the concentration of air ions increases.

Claims (1)

Formula of the invention A device for ionizing air, which consists of an air ionizer containing two guide metal casings, an electric fan, corona electrodes, insulators and a high voltage source, which is distinguished by the fact that a signal from the output of the voltage switch is applied to the input of the air ionizer, to the input /5 Which signal is supplied from the output of the amplifier of electrical signals, and the input of the amplifier of electrical signals is connected to the output of the control multivibrator, the inputs of which are supplied with signals from the output of the pulse generator and the primary converter of humidity into resistance. schi from (22) Io) o "-- Zo "o - and? o - o 1 (32) 60 b5