SU1666798A1 - Air treatment device for internal combustion engine - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to engine-building and allows for increased processing efficiency. In the intake tract 1, a tubular electrode 2 is installed, inside which is placed a rod electrode 3. The device is provided with a source of ultraviolet radiation 4 installed downstream of the electrode 3 with the possibility of irradiating the inner surface 5 of the tubular electrode 2, the outer surface of the rod electrode 3, the space 7 between them and space 8 intake tract. Electrodes are absorbent and reflective coating. The air passing through the device is double-processed and enters the engine. 5 hp ff, 2 ill.

Description

The invention relates to engine building, in particular to air processing devices, and can be used both with a carburetor or gas engine, and with a diesel engine.

The aim of the invention is to increase the efficiency of processing.

In FIG. 1 shows a diagram of a device; in FIG. 2 is an example of an insert with five electrodes.

An air treatment device for an internal combustion engine comprises a tubular cylindrical electrode 2 installed in the intake tract 1, inside of which at least one rod electrode 3 is arranged concentrically to it and parallel to the path 1. The device is equipped with an ultraviolet light source 4 that can emit ultraviolet light with resonant waves frequencies, for example 1470, 1200-1900 or 1750-3600 A °, in particular 1849 A °. The source is installed downstream of the electrodes 3 with the possibility of irradiating the inner surface 5 of the tubular cylindrical electrode 2, the outer surface 6 of the rod electrode 3, the space 7 between them, as well as the inner space 8 of the inlet tract 1. The inner surface 5 of the tubular electrode 2 is coated with a reflective layer of aluminum and an absorbing antimony-cesium coating is applied to the outer surface of the rod electrode.

The tubular cylindrical electrode can be made in the form of an electrically conductive insert 9 with channels 10 parallel to the inlet tract, and the rod electrodes are mounted concentrically in the channels. The device is equipped with autonomous toggle switches 11 and 12, respectively, of the electrodes and the ultraviolet radiation source connecting the power source 13 with the converters 14 and 15, respectively. The arrester electrodes are mounted using a pipe 16 made of electrical insulation material into which pin 17 is fixed. The ultraviolet radiation source is mounted in the holder pipe 18, also made of electrical insulating material.

The device operates as follows.

By switching on the toggle switches 11 and 12, power is supplied from the source 13 through the converters 14 and 15 to the spark gap electrodes and the ultraviolet radiation source.

Air passing through the device is subjected to double treatment with both a spark gap and ultraviolet radiation, and the processing efficiency is increased, since the discharge goes in already partially ionized air, which increases the ozone output, this is facilitated by coating the electrode 6 with an absorbing coating and the presence of a reflective layer on the inside surfaces 5. If necessary, the electrodes and the ultraviolet lamp can be switched on by tumblers 11 and 12 independently.

Claims (6)

Claim 1. An air treatment device for an internal combustion engine, comprising a tubular cylindrical electrode installed in the inlet duct, inside of which at least one rod electrode is arranged concentrically to it and parallel to the inlet duct, characterized in that, in order to increase the processing efficiency, the device is provided with an ultraviolet source radiation installed behind the electrodes downstream with the possibility of irradiation of the inner surface of the tubular cylindrical electrode, the outer surface terzhnevogo electrode space therebetween, and at least part of the inner space of the inlet tract, wherein the cylindrical inner surface of the tubular electrode is covered with a reflecting layer, and on the outer surface of the rod-shaped electrode applied absorbing coating. 2. The device pop. 1, characterized in that the tubular cylindrical electrode is made in the form of an electrically conductive insert with channels parallel to the inlet duct, and the rod electrodes are mounted concentrically in the channels. 3. The device according to paragraphs. 1 and 2, characterized in that the absorbing coating is made of antimony-cesium, and reflective - aluminum. 4. The device according to paragraphs. 1-3, characterized in that it is equipped with autonomous toggle-switches for turning on the electrodes and the source of ultraviolet radiation. 5. The device pop. 1, characterized in that the source of ultraviolet radiation is made in the form of a lamp with a wavelength of 1849 A °. 6. The device pop. 1, characterized in that the source of ultraviolet radiation is made in the form of a lamp with a wavelength equal to 1470 A °. Figure 1