RU2657040C1 - Noise suppressor - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: muffler is designed to reduce the internal combustion engines exhaust gases noise level, in particular for pulsed combustion chambers with aerodynamic valve. Muffler contains reactive chamber, which is formed by shell 3, flat solid bottom 1 and outer cover 12, and has aerodynamic valve 2, also has active chamber 6, which is formed by lower perforated plate 4 and upper perforated plate 7, which hold the fluidized bed 5, which is made in the form of ceramics dispersed granules, diametrically exceeding the plates perforation degree, in order to increase the exhaust noise attenuation, and cover is made by the two-cartridge scheme consisting of the flat shaped outer side 12 and convex in the form of a truncated cone from the inner side 8, at that, the cover outer side is made with annular gaps 9 and 11, and furthermore is provided with a reflective metal disc 10 with inlet-outlet branch pipe 13.

EFFECT: increase in the muffler efficiency by increasing its noise-insulating ability due to simplification of design while simultaneous reduction of the back pressure in the muffler.

1 cl, 2 dwg

Description

The invention relates to mechanical engineering and can be used to reduce the noise level of exhaust gases of internal combustion engines, in particular in pulsating combustion chambers with an aerodynamic valve.

Known silencer of noise of an internal combustion engine, patent RU 2516772, IPC F01N 1/24, 2014, published in BI No. 14 of 05.20.2014, which contains a housing with end walls with inlet and outlet pipes, two internal transverse partitions that divide the volume of the silencer into three cameras. The silencer case is made in the form of a cylinder, and the inlet pipe is equipped with a fitting for introducing ozone. The cameras located at the inlet and outlet nozzles have a longitudinal partition that divides each camera into two. The longitudinal partitions in the chambers are located at the level of the upper wall of the inlet pipe, which are made of a gas-permeable material and coated with a catalyst of salts of platinum, palladium, rhodium. The transverse partition of the chamber at the inlet has perforation in the upper part, and the opposite partition of the middle chamber has perforation in the lower part. The chambers above the longitudinal partitions are filled with a layer of dispersed particles of ceramic or silica glass containing a catalyst of palladium, platinum, rhodium salts and occupying 2/3 of their volume. The layer of dispersed particles in the chamber at the inlet pipe has a bulk density of 1300-1500 kg / m ³ , and in the chamber near the outlet pipe has a bulk density of 1600-1800 kg / m ³ , moreover, damping the noise of the internal combustion engine consists in a double noise absorber.

The disadvantage of the silencer is the design complexity, severe wear of bulk material due to friction against the partitions, and the supply of combustion products to the sections is uneven, which leads to high pressure losses in the silencer, which reduces the speed of the crankshaft, thereby reducing the efficiency of the internal combustion engine, therefore, reducing the effectiveness of the silencer.

The closest in technical essence and taken as a prototype is "Noise suppressor", patent RU 2517464, IPC F01N 1/24; F01N 13/00, 2014, published in BI No. 15 of 04/27/2014, which contains a housing with chambers formed by partitions and an inlet pipe. The body is made of an external cylindrical shell, its continuous bottom and a spherical perforated cover. Inside the casing and parallel to it there is an inner cylindrical shell, which has a solid partition and a continuous spherical cover. The outer and inner cylindrical shells are connected by an annular perforated partition. In the formed inner cavity between the annular perforated partition and the covers there are vertical partitions with the formation of active chambers filled with bulk material. Under the active chambers there is a reaction chamber, which is formed by a continuous partition of the inner cylindrical shell and part of the inner cylindrical shell, an annular perforated partition, part of the outer cylindrical shell from the annular perforated partition to the bottom of the casing and its continuous bottom.

The disadvantage of this technical solution lies in the design features of the silencer, limiting the possibility of noise attenuation of the exhaust gases of the pulsating combustion chamber, that is, it has insufficient sound-insulating ability to suppress noise, since this silencer uses chambers with bulk material that is difficult to hold due to perforated plates, moreover in the area of the reaction chamber, a high back pressure due to the sudden rotation of the exhaust stream passing through the bulk material reduces the rotational speed of the crankshaft, reducing the efficiency of the internal combustion engine, as well as the strong wear of bulk material due to friction against the baffle, also reduces the effectiveness of the muffler as a whole.

The object of the invention is to increase the noise insulating ability of a silencer from exhaust gases flowing out of the aerodynamic valve of a pulsating combustion chamber by simplifying the design while reducing backpressure without increasing pressure losses in the silencer, contributing to an increase in the efficiency of the silencer.

The technical result from the use of the invention is to increase the efficiency of the silencer, by increasing its sound-insulating ability, by simplifying the design while reducing backpressure in the silencer.

The technical result is achieved by the fact that in the noise suppressor comprising a housing with reactive and active chambers made of an external cylindrical shell, an inlet pipe in the form of an aerodynamic valve, a continuous flat bottom and a cover, according to which an aerodynamic valve, which is located in the reaction chamber, is introduced at this reactive chamber is made in the form of a single chamber and is formed by a continuous bottom and a shell lid, and the active chamber is formed by upper and lower perforated plates, while on the bottom the perforated plate is a fluidized bed, which is made in the form of dispersed granules of ceramic, diametrically exceeding the degree of perforation of the plates, to increase the noise reduction of the exhaust, and the lid is made according to a two-stage scheme consisting of the outer side of a flat shape and convex in the form of a truncated cone on the inside, when this the outer side of the cover is made with annular gaps and a reflective metal disk with an inlet-outlet pipe.

New in the device is:

The present invention allows to obtain a more efficient silencer with high noise insulation in a wide frequency range, this is due to the fact that the reaction chamber is made in the form of a single chamber and is formed by a continuous bottom and a shell lid, and the active chamber is formed by upper and lower perforated plates, moreover on the lower perforated plate there is a fluidized bed, which is made in the form of dispersed granules of ceramic, diametrically exceeding the degree of perforation of the plate Stin, in this case, due to the implementation of the cover in a two-stage scheme, multiple reflection due to the metal disk on the outside of the cover and friction of the exhaust gases in the fluidized bed, the acoustic energy is dissipated at medium and high frequencies, and due to the constructive design of the reactive chamber of the noise suppressor, noise at low frequencies.

The proposed device also allows to obtain an effective silencer by simplifying the design of a silencer made without baffles for the implementation of several chambers, thereby increasing the efficiency of the silencer of the exhaust gases of a pulsating combustion chamber, without increasing pressure loss in the silencer, and the location of the fluidized bed, which is made in the form dispersed granules made of ceramic, diametrically exceeding the degree of perforation of the plates allows to reduce the wear of the granules and their loss due to perforation, which is so it will also increase the noise insulating ability of the muffler, and therefore, increase the efficiency of the noise muffler as a whole.

To clarify the technical essence of the invention, we consider the drawings: in FIG. 1 - shows a General view of the claimed device;

FIG. 2 - view A is shown, where:

1 - solid flat bottom

2 - aerodynamic valve

3 - housing from the outer cylindrical shell

4 - bottom perforated plate

5 - fluidized bed in the form of dispersed ceramic granules

6 - active camera

7 - upper perforated plate

8 - the inner side of the cover

9 - annular clearance

10 - reflective metal disk

11 - annular clearance

12 - the outer side of the cover

13 - inlet-outlet pipe

Silencer works as follows.

Shock waves of low intensity with the flow of exhaust gases flow out through the aerodynamic valve 2, expand and partially reflect from the solid flat bottom 1, after which the gases pass through the fluidized bed of granules 5 located in the active chamber 6, which is held by perforated plates 4 and 7, then the residual part of the exhaust gas is reflected from the inner side 8 of the cover and due to the discharge in the pulsating combustion chamber through the aerodynamic valve 2 again rushes into the combustion chamber, while some passes through the annular gaps 9 and 11, while enveloping the reflective metal disk 10 enters the environment through the inlet-outlet pipe 13. In this case, to maintain a self-oscillating combustion process in the combustion chamber through the inlet-outlet pipe 13 and the annular gaps 9 and 11, fresh air and through the fluidized bed 5 at the time of discharge enters the combustion chamber and the process is repeated.

With an increase in the second gas flow rate, the amount of combustion products increases, and the intensity of noise generation also increases. At the same time, due to the increase in the acoustic energy of the exhaust gases, the movement of the fluidized bed is activated, as a result of which their sound absorption is increased without increasing the pressure loss in the silencer. This is due to the gas-dynamic transparency of the fluidized bed, which is governed by the flow of exhaust gases: the more exhaust gases, the higher the gas transparency of the fluidized bed and vice versa. The acoustic energy of the exhaust gases is effectively dissipated in the fluidized bed in the middle and high frequency range for all operating modes of the pulsating combustion chamber and the back pressure in the silencer, regardless of the operating mode of the chamber, remains constant. Low frequencies are effectively dissipated due to the reactive component, a multiple of the length of the muffler (a single chamber formed by a shell, a solid flat bottom and a cover.

According to its technical and economic advantages, compared with the known analogues, the present invention allows to obtain a simple design of a silencer, simple to assemble without baffles for the implementation of several chambers, thereby increasing the efficiency of the silencer of the exhaust gases of a pulsating combustion chamber, without increasing pressure loss in the silencer and the location of the fluidized bed in the form of dispersed granules of ceramic, diametrically exceeding the degree of perforation of the plates, eliminates their loss due to perforation, which will also improve the noise insulation ability of the muffler, and therefore increase the efficiency of the noise muffler in general.

Claims (1)

A silencer comprising a housing with reactive and active chambers made of an external cylindrical shell, an inlet pipe in the form of an aerodynamic valve, a solid flat bottom and a cover, characterized in that the aerodynamic valve is located in the reactive chamber, while the reactive chamber is made in in the form of a single chamber and is formed by a continuous bottom and a shell lid, and the active chamber is formed by the upper and lower perforated plates, while on the lower perforated plate there is a pse fluidized bed, which is made in the form of dispersed granules of ceramic, diametrically exceeding the degree of perforation of the plates to increase exhaust noise reduction, and the lid is made according to a two-stage scheme consisting of the outer side of a flat shape and convex in the form of a truncated cone on the inside, while the outer side of the lid made with annular gaps and a reflective metal disk, with an inlet-outlet pipe.

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