SU1740895A1 - Device for bipolar ionization of gas medium - Google Patents

Description

dy In addition, the devices are characterized by the complexity of construction and installation in the duct.

The closest in technical essence to the present invention is a device of bipolar ionization of a gaseous medium containing a system of discharge and accelerating electrodes located in an air duct connected to the secondary winding of a high-voltage transformer, the primary winding of which is the load of a voltage regulating unit representing a generator pulses of alternating voltage connected to the input of the ion concentration control unit. In addition, grid electrodes are located behind the accelerating electrodes, one of which is connected to the air duct, and the other to the unipolarity control unit of ions.

The ion concentration control unit, which changes the voltage on the high voltage transformer, and the unipolarity control unit, which changes the sign of the potential on the grid electrodes, allows you to adjust the concentration of positive and negative ions separately, as a result of which both the content of aero ions and the coefficient of unipole change the air ionic composition of the air environment in the local area of the room adjacent to the electrodes.

However, the device located in the duct is characterized by sufficient complexity and low ion-forming capacity, as a result of which it has a limited radius of action and, consequently, low efficiency of regulation of the ionic composition of the air environment of industrial premises.

The purpose of the invention is to increase the ion-forming ability and increase the efficiency of regulating the ionic composition of the air environment of industrial premises.

The goal is achieved by the fact that the device, which includes a voltage control unit, a high-voltage transformer and electrodes connected to it, additionally contains a thyristor control unit, the input of which is connected to the output of the voltage control unit, and the output to the input of the high-voltage transformer. electrodes are made in the form of wires.

The introduction of a thyristor control unit and a corona system in the form of wires placed in a room allows to obtain an ion-forming ability of the device in the entire volume of the room, sufficient to optimize the ionic composition of the air environment, increases the efficiency of regulation of the ionic composition

concentration and unipolarity (combined in one block).

FIG. 1 shows schematically a device for bipolar ionization of a gaseous medium; in fig. 2 - schematic diagram

0 devices.

A device for bipolar ionization of the gaseous medium contains a series-connected voltage regulating unit 1 connected to an alternating-voltage network.

5 current, the thyristor control unit 2, the input of which is connected to the output of the voltage regulating unit, and the output connected to the input of the high-voltage transformer 3, the output of which is connected to the electrodes 4,

0 made in the form of wires.

The voltage control unit and the high voltage transformer are designed to supply high voltage of variable polarity to the electrodes, and

5 thyristor control unit - to regulate the magnitude of the applied voltage over the positive and negative half-periods separately, the electrodes generate ions in the whole volume

0 rooms

The device works as follows.

Power supply 220 V frequency 50

5 Hz is fed to the autotransformer T 1 type RNO-250. The nominal or undervoltage is removed from the autotransformer (depending on the volume of the room, airflow rate, relative humidity and other characteristics of the production room), which is fed to the input of the thyristor control device 2 connected in series with the load. Depending on the magnitude of the variable resistances Re and Nu, the magnitude of the turn-on time of the thyristors VD1 and VD3 is changed. In accordance with this, the magnitude of the effective voltage varies by a positive and

0 negative half-period separately. This voltage is applied to the primary winding of the high voltage transformer T 2 of the TG-1020 type (pos. 3).

High voltage is applied to the electrodes through the limiting resistances R2 and Ra of 3 MΩ, which ensures safety in the case of contact with the electrodes.

The electrodes are made of nichrome with a diameter of 0.1 mm and attached to a nylon thread 2-3 mm thick.

To signal the presence of high voltage on the electrodes, a neon lamp VL 1 of the MH-0.9 type is used, attached directly to the electrode via a ballast resistance R4 of 18 MΩ.

The electrodes located along the ceiling of the room generate ions, the polarity and concentration of which depend on the polarity and the magnitude of the effective voltage applied to the electrodes.

The regulation of the magnitude of the active voltage supplied to the electrodes is carried out by the thyristor control unit over the positive and negative half-periods separately.

Thus, by introducing the thyristor control unit, connecting it in this way and making the electrodes in the form of wires taut in the room, a high ion-forming ability and efficiency of the process of controlling the ionic composition of the air environment of the production premises is achieved.

The table shows the dependence of the ion content in the air of the production room (working area) on

voltage at the output of the voltage control unit.

From the data in the table, it follows that in the presence of a high ion-forming capacity (104 ion / cm3 in the working area), the device allows for the effective control of the ionic composition of the air in the room to optimize it.

Thus, the present invention allows to provide technical and economic advantages in comparison with the known technical solutions.

Claims (1)

Invention Formula A device for bipolar ionization of a gaseous medium containing a voltage control unit, a high-voltage transformer and electrodes connected to it, characterized in that, in order to increase the efficiency of controlling the ionic composition of the medium, the device further comprises a thyristor control unit, the input of which is connected to the output of the control unit voltage, and the output - with the input of a high voltage transformer, while the electrodes are made in the form of wires. N in