RU1815357C - Nozzle for exhaust system of internal combustion engine - Google Patents

Abstract

The inventive nozzle for the exhaust system of an internal combustion engine contains a pipe 1 with an inlet 2 and an outlet 3 holes and coaxial streamlined chamber 4 of a drop-shaped form and a cylindrical bell 5. The streamlined chamber 4 is made of porous heat-resistant magnetostrictive material 6 and is provided with internal peripheral flushing channels 7 located around the circumference, the pipe 1 is made perforated with holes 8 of perforation and placed in a streamlined chamber 4, and the socket 5 is installed with the coverage of the chamber 4 and with the formation of an annular gap 9 of variable cross-section. The axis of the washing channels 7 coincide with the vertices of a regular polygon with sides equal. 0.45-0.55 (0 - d), where D is the outer diameter of the streamlined chamber 4 in the largest section, d is the diameter of the pipe, In addition,; washing channels 7 are equipped with exhaust; nipples 13 made of magnetostrictive material, the nozzles are equipped with at least one solenoid 14, which is installed with the coverage of the streamlined chamber 4, and the solenoids are installed with the coverage of the exhaust fittings 13 of the washing channels 7. 4 zp f-ly, 2 ill. (L G

Description

The invention relates to mechanical engineering and can be used in exhaust systems of internal combustion engines.

The aim of the invention is to increase the efficiency of exhaust gas purification and sound attenuation and to reduce operating costs.

Fig. 1 schematically shows nozzles for an exhaust device, a longitudinal section; Fig. 2 is a section through the plane AA in Fig. 1, perpendicular to the axis.

The nozzle for the exhaust system of an internal combustion engine comprises a pipe 1 with an inlet 2 and an outlet 3 holes and a coaxial streamlined chamber

4, drop-shaped and a cylindrical bell 5. The streamlined chamber 4 is made of porous heat-resistant magnetostrictive material 6 and is equipped with internal peripheral flushing channels 7 located on the outside, the nozzle 1 is perforated with perforation holes B and placed in a streamlined chamber 4, and the bell

5 is installed with the camera 4 covering and with the formation of an annular gap 9 of variable cross section between it and the streamlined surface of the camera 4. The axis 10 of the washing channels 7 coincide with the vertices of a regular polygon 11 with sides 12 equal to 0.45-0.55 (D - d), where D is the outer diameter of the streamlined chamber 4 in section AA, d is the diameter of the nozzle 1. Flushing channels 7 are provided with exhaust fittings 13 made of magnetostrictive material. The nozzle is equipped with a streamlined chamber 4 and fittings 13 solenoids C4. connected during the flushing to the alternator 15.. . .

The nozzles for the exhaust system of an internal combustion engine operate as follows.

Exhaust high-temperature exhaust gases of the engine enter the inlet 2 of the nozzle 1 and are evenly distributed through the perforation holes 8 along the inner layers of the porous heat-resistant magnetostrictive material 6 forming the streamlined chamber 4. When the vehicle is moving, the bell 5 and the surface of the streamlined chamber 4 organize the flow of ambient air and an exhaust gas mixture in an annular gap 9 such that a reduced pressure region is created on the surface of the streamlined portion of the chamber 4. This makes it possible to compensate for the additional resistance for exhaust gases in the volume of the porous material b and ensures uniform saturation of the latter with carbon black solid particles, i.e. deeper exhaust gas cleaning.

After cleaning, the exhaust gases through the annular gap 9 enter the outlet 3 and the exhaust fittings 13, which are also used to regenerate the working volume of the chamber 4.

The absorption capacity is regenerated by periodically washing the volume of the streamlined chamber 4 by supplying a special washing solution (for example, in the form of water-soluble soaps) in

5, washing channels 7, equipped with nozzles for supplying the solution 13. When washing, the nozzle is placed in the internal cavity of the solenoid 14, after which it is passed through the shell.

0 current high-frequency current from the generator 15. and in the nozzles 13 serves washing solution. The simultaneous action of the solution and the vibration of the porous magneto-tricytric material 6 under the action of an alternating

5, the magnetic field of the windings enclosed in the generator 15 ensures the removal of settled soot particles from the volume of the porous material 6.

Flushing intensification is possible.

0 to ensure by placing inside the solenoid 14 only the fitting 13, also made of magnetostrictive material, which reduces the cost of electromagnetic energy. As an AC source

5, either a special gene can be used: a reactor 15 or an engine ignition system. Thus, the execution of the streamlined chamber 4 from a porous heat-resistant magnetostrictive material 6 and the provision of its internal peripheral flushing channels 7 located around the circumference, and the pipe 1 - perforated and placed in the streamlined chamber 4, and the establishment of the socket 5 with coverage 5 of the chamber 4 and with the formation an annular gap 9 of variable cross section, as well as supplying the flushing channels 7 with fittings 13 and supplying the nozzle with solenoids 14 allows:

0

increase the depth of exhaust gas cleaning;

increase sound absorption;

improve the environmental situation; 5 increase the durability of the nozzle;

reduce operating costs.

The economic effect of using the proposed invention in monetary terms at the filing date of applications is uncertain, since it should be

calculated according to specific operating conditions.

Claims (5)

SUMMARY OF THE INVENTION 1. A nozzle for an exhaust system of an internal combustion engine, comprising a nozzle with an inlet and an outlet and a coaxial teardrop-shaped chamber and a cylindrical bell, characterized in that, in order to increase the efficiency of exhaust gas cleaning and sound attenuation, the streamlined chamber is made made of porous heat-resistant magnetostrictive material and equipped with internal peripheral flushing channels located around the circumference, the pipe is perforated and placed in theca cell, a funnel installed covering the chamber and an annular gap of variable section. 0 2. Nozzles according to claim 1, excellent in that the axis of the washing channels coincide with the vertices of the regular polygon with the sides equal to 0.45-0.65 (D - d), where O is the outer diameter of the streamlined chamber in the largest section, d - pipe diameter. 3. Nozzles according to claims 1 and 2, with the fact that, in order to reduce operating costs, the washing channels are equipped with exhaust fittings made of magnetostrictive material. 4. Nozzles according to claims 1 to 3, characterized in that the TCMV is equipped with at least one solenoid. 5.. Nozzle according to claims 1 to 4, with the fact that the solenoid is installed with the coverage of the streamlined camera.