SU869839A1 - Electric discharge apparatus for producing pulse acoustic wave - Google Patents

Description

The invention relates to devices for producing mechanical oscillations of sound frequency in gases using electrical energy and can be used to combat dust deposits in the building materials industry and other folk industries. An electrical discharge device for generating a pulsed acoustic wave in dust collection devices with an operating voltage of significantly more than 1000 V l is known. In such a device, the spectrum of a pulsed acoustic wave is in the ultra-acoustic region. This leads to the fact that the acoustic wave is intensively absorbed and quickly attenuates in the air flow, as a result of which it cannot effectively influence the deposited deposits in the dust collecting devices. To combat dust deposits, it is effective to use only impulse acoustic waves with a low-frequency spectrum, and such waves can be created by arresters at relatively low voltages of about 1000 V and lower. The closest in its technical essence is an electric discharge device for generating a pulsed acoustic wave containing an insulating base, on a co-torus there are two parallel or diverging at an acute angle the main electrodes connected at the insulating base with a capacitor battery, and a ignition electrode connected to high voltage winding pulse transformer. In addition, the device is equipped with two more igniting electrodes and a magnetic system in which they are located L2 J. The disadvantage of the device is its complexity, namely the presence of three igniting electrodes located in the magnetic system, and, as a result, lack of reliability. The aim of the invention is to simplify the design of the electric discharge device. This goal is achieved by the fact that in a known electrical discharge device for producing a pulsed acoustic wave containing an insulating base on which two parallel or diverging angularly main electrodes connected at the base with a capacitor battery are located, and a burning electrode, connected to the high-voltage winding of a pulse transformer, the firing electrode is fixed at one end on the insulating base between the main electrodes so that its lower part is directed the first main electric ;; , y, and the free end to the second main electrode, while the distance between the free end of the igniting electrode and the second main electrode is greater than the distance between the lower part of the ignition electrode and the first main electrode. The firing electrode is curved in its lower part. The drawing schematically depicts a general view of an electric discharge device for creating pulsed acoustic waves. The device contains an insulating base 1, on which the main electrodes 2 and 3 are hardened and igniting the 1st TION electrode 4, made of solid copper. The main electrodes 2 and 3 are connected at the base 1 with a capacitor battery 5. The ignition electrode 4 has, for example, a curved form and is connected to the second BASIC electrode 3 through the high-voltage winding of the pulse transformer 6, having a resistance of no more than 10 ohms. The device works as follows. A capacitor battery 5 charges from, from an external current source to a voltage of about hundreds of volts, after which a pulse is applied to the primary winding of a pulse transformer 6, which results in a high voltage on the secondary winding of the order of 10 kV. This voltage pierces the gap between the main 2 and the igniting 4 electrodes in their place. maximum approximation. After the end of the spark ignition discharge between the electrodes 2 and 4, a highly ionized gas remains, through which the arc discharge of the capacitor bank S starts through the winding of the pulse transformer 6. hundreds of amperes, and at a current of this magnitude a significant magnetic field accompanying it arises, which tends to expand the current loop, and since all electrical connections in the device ystve performed at the base J, arc discharge starts to move over the electrodes 2 and 4 away from the base; those. towards the electrode 3. After the arc discharge reaches the end of the igniter electrode 4, an additional torch of ionized gas arises at the end of the latter, which completely completes the gap between the electrodes 2 and 3 with ionized gas, and the voltage between the electrodes 2 and 4 time is in the order of tens of volts. In the device, these processes proceed extremely quickly and by the time the ionized conductive channel is formed between electrodes 2 and 3, the voltage on the capacitor battery 5 does not change, i.e. the voltage between electrodes 2 and 3 is in the order of hundreds of volts. This voltage completes the formation of the conductive ionized channel between the main electrodes 2 and 3, through which the high-current discharge of the capacitor battery 5 begins. At the same time, the voltage between the main electrodes 2-iZ3 sharply drops, the discharge between the electrodes 2 and 4 goes out, which is also facilitated by a sharp increase in the magnetic field in the space between electrodes 2 and 3, which is accompanied by an increase in current in electrodes 2 and 3. Under the influence of this magnetic field, the high-current arc discharge between electrodes 2 and 3 moves

at high speed in the direction from the base 1. A sharp heating of the gas to a high temperature and its movement at high speed generate a powerful acoustic wave, which spreads away from the device into the surrounding gas.

The spectrum of the generated pulsed acoustic wave lies in a relatively low frequency region (at IrlO kJ energy, from hundreds of hertz to few kilohertz), and such a wave weakly attenuates in the air and can be successfully used to effectively combat dust deposition in pullers.

The invention has a constructive simplicity and high reliability in operation.

Claims (2)

1. An electric discharge device for generating a pulsed acoustic wave containing an insulating base on which two parallel or diverging at an acute angle main electrodes connected at the insulating base to a capacitor battery are located, and a firing electrode connected with a high-voltage winding of a pulse transformer, distinguished by the fact that, in order to simplify the design, the igniting electrode is fixed with one end on an insulating base, between the main electrodes so that its lower part is directed to the first main electrode and the free end to the second main electrode, wherein the distance between the free end of the igniter electrode and the second main electrode is greater than the distance between the lower part ignition electrode and the first main electrode. 2. An electric discharge device according to claim I. characterized in that the igniting electrode in its the bottom is curved. Sources of information taken into account in the examination 1.Fryugel F. Impulsna technique. M.-L., Energia, J965, pp.260-261. 2.Bron OB, Sushkov L.K. Plasma flows in an electric arc of switching devices. L., Energie, 1975, P.137.