SU1613666A1 - I.c.engine exhaust muffler - Google Patents

Abstract

The invention makes it possible to increase the efficiency of sound attenuation by expanding, throttling and interacting the flow with a sound-absorbing material. The exhaust gases through the inlet pipe 4, breaking into separate streams using the perforation holes of the pipe 4 and the grill 14, into the inlet chamber 10, where they expand, lose speed and energy. Next, the gases through the perforated partition 8 enter the intermediate chamber 11, from where through the outlet 5, the exhaust chamber 12 filled with sound-absorbing material 13, the ejector device, the cylindrical nozzle 16 and the outlet diffuser 17 are released into the environment. The specified ratios of the design dimensions of the silencer elements contribute to noise suppression in a wide frequency range. 4 hp ff, 1 ill.

Description

The invention relates to mechanical engineering, in particular engine manufacturing, and in particular to silencers of the exhaust emission of an internal combustion engine.

The aim of the invention is to increase the efficiency of sound absorption.

The drawing shows a silencer, longitudinal section.

The silencer for exhausting an internal combustion engine contains a cylindrical vertically mounted housing 1 with a lower 2 and upper 3 end walls,; inlet 4 in the form of a knee and coaxial outlet; 5 perforated nozzles partially ^ housed in the housing 1, an ejection device made in the form of a suction pipe 6 and an outlet confuser 7 installed in the area of the outlet end of the outlet pipe 5, and the inlet pipe 4 is installed in the area of the lower end wall 2 of the housing 1, and its output slice is coaxial to the housing 1. The muffler is equipped with the first 8 and second 9 transverse perforated partitions installed respectively in the plane of the inlet end of the exhaust pipe 5 and in the area of the upper end wall 3 of the housing 1 and separating and the housing 1 to the inlet 10, the intermediate 11 and the outlet 12 of the chamber, the first transverse partition 8 in the region of the inlet end of the outlet pipe 5 is solid and interfaced with the latter, the outlet chamber 12 is filled with sound-absorbing material 13, and the outlet section of the inlet pipe 4 is provided with a perforated grill 14 .

The ejection device may be equipped with an annular collector 15 connected in the outlet confuser 7, mounted coaxially with a coverage of the outlet end of the outlet pipe 5 and connected to the suction pipe 6, and a cylindrical nozzle 16 and an output diffuser are sequentially connected to the outlet end of the outlet confuser 7 17. The output end of the exhaust pipe 5 may be made in the form of a confuser.

The ratio of the total area of the perforation holes of the grill 14 of the inlet pipe 4 to the area of the pipe 4 at the inlet can be 1.3-1.4. As sound-absorbing material 13 can be used quilted mats from a loose layer of staple superthin fibers coated with fiberglass.

The total area of the perforation holes of the inlet pipe 4 may be 3.5-4.0 of the total area of the holes of the perforation of the grill 14, and the diameter of the housing 1 in the area of the inlet chamber is 10-3.5-4.0 of the diameter of the inlet pipe 4. It is recommended that the volume of the inlet chamber 10 at least 2.0-2.5 times the working volume of the engine cylinders.

The ratio of the total area of the perforation holes of the exhaust pipe 5 within the intermediate chamber 11, and the total area of the perforation holes of the partition 9 may be 3.0-3.5. The diameter of the holes of the perforation of the partition 9 is recommended to be made in the range of 10.0-12.0 mm, and the holes should be evenly distributed over the entire surface. The diameter of the holes of the perforation of the exhaust pipe 5 within the chamber 11 is recommended to be performed in the range of 7.5-7.8 mm. The length of the exhaust pipe 5 in the area of the chamber 12 can be a value of 2.0-2.5 caliber, and the perforation coefficient is 0.15-0.20. The diameter of the perforation holes of the nozzle 5 in the area of the chamber 12 can be 1.3-1.4 times smaller than the diameter of the holes of the perforation of the nozzle 5 in the zone of the chamber 11 and can be 5.5-5.7 mm.

Silencer works as follows.

The exhaust gases through the inlet pipe 4, developing into separate streams with the help of a perforated grill 14, enter the inlet chamber 10, where they expand, lose speed and energy, and smoothing (laminarization) of the flow occurs. The speed reduction is also facilitated by the fact that the total area of the perforation holes of the grill 14 of the inlet pipe 4 is 1.3–1.4 of the area of the pipe 4. The uniform distribution of gases in the inlet chamber 10 is also facilitated by the ratio of the total areas of the perforation holes of the inlet pipe 4 and the grill 14, which is 3.5-4.0, and the reduction and smoothing of the flow rate is the ratio of the diameters of the housing 1 in the area of the inlet chamber 10 and the inlet pipe 4, which is 3.5-4.0. The presence of the expansion inlet chamber 10 contributes to the effective damping of the low-frequency component due to the difference in gas impedances in the chamber 10 and the nozzle 4, and the fact that the volume of the chamber 10 is at least 2.0-2.5 more than the working volume of the engine cylinders contributes to an increase in efficiency. . From the inlet chamber 10, gases passing through the perforated baffle 8, enter the intermediate chamber 11 and then part of the gases through the perforation holes of the outlet pipe 5 enters the latter, and the rest of the gases through the baffle holes 9 enter the exhaust chamber 12. Due to the specified size of the perforation holes partitions 9, the latter passes medium-high-frequency noise components into the exhaust chamber 12, which are absorbed there using sound-absorbing material 13. In the exhaust pipe 5, the gases increase their speed, which contributes to the transition of noise into the region of high-frequency components 1613666, and the latter, with the help of perforation holes of the pipe 5 in the area of the chamber 12, interact with sound-absorbing material 13 and effectively damp. The small diameter of the perforation holes pat-, cutting 5 in the area of the chamber 12 contributes to the reflection from the pipe of the low-mid-frequency components of noise passing through the partition 9 and sound-absorbing material 13, and their re-interaction and absorption by the latter. 1

The use of 13 quilted mats from a loose layer of staple superthin fibers coated with fiberglass as sound-absorbing material allows maintaining their structure for a long time, as they can withstand heating up to 450 ° C and have low hygroscopicity.

In the ejection device, the ejected stream entering through the suction pipe 6 acts as a kind of acoustic 2 screen with respect to the ejected exhaust stream, which are discharged into the environment through the cylindrical nozzles 16 and the outlet diffuser 17.

Claims (5)

Claim 1. A silencer for the exhaust of an internal combustion engine, comprising a cylindrical vertically mounted body with a lower and upper end walls, an inlet in the form of a knee and a coaxial exhaust perforated nozzles partially placed in the body, an ejection device made in the form of a suction pipe and an outlet confuser is installed -, in the area of the outlet end of the outlet pipe, and the inlet pipe is installed in the area of the lower end wall of the housing, and its output section is coaxial to the housing, characterized in that, for the purpose To increase the efficiency of sound absorption, it is equipped with the first and second transverse perforated partitions installed respectively in the plane of the inlet end face of the outlet pipe and in the area of the upper end wall of the body and separating the body into the inlet, intermediate and outlet chambers, the first transverse partition in the region of the inlet end of the outlet pipe is made continuous and interfaced with the latter, the exhaust chamber is filled with sound-absorbing material, and the output section of the inlet pipe is provided with perforated eshetkoy. 2. Silencer according to π. I, characterized in that the ejection device is equipped with an annular collector connected to the output confuser, mounted coaxially with the coverage of the output end of the exhaust pipe and connected to the suction pipe, and a cylindrical nozzle and an output diffuser are sequentially connected to the output end of the output confuser. 3. The muffler according to paragraphs. 1 and 2, characterized in that the ratio of the total area of the holes of the perforation of the grille of the inlet pipe to the area of the pipe at the inlet is 1.3-1.4. 4. The muffler according to paragraphs. 1-3, characterized in that the ratio of the diameters of the holes of the perforation of the exhaust pipe in the intermediate and exhaust chambers is 1.3-1.4. 5. The muffler according to paragraphs. 1-4, characterized in that quilted mats from a loose layer of staple superthin fibers coated with fiberglass are used as sound-absorbing material.