SU1278490A1 - Gas flow muffler - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to the field of engine construction, namely to internal combustion engines. The aim of the invention is to increase efficiency. A silencer consists of two or more bodies with openings mounted concentrically. The reflectors 3 in cross section are made of segment or onion-shaped form and are installed with the formation between the adjacent sections of the longitudinal entrance sh, spruce. The latter are focused on convex walls, reflectors of 3 outer housings, made of perforated sheet. When the flow spreads on the surfaces of the reflectors 3, a rapid increase in the surface (expansion) of the initial flow occurs. When the air spreads over the convex surfaces of the reflectors 3, the flow sucks to the surface and a vacuum occurs on it. This increases the ejecting effect of spreading gas streams. Each reflector 3 is equipped with an ejector, connecting the internal cavity with the surrounding space. 3 hp f-ly, 6 ill. l go vj cx 4

Description

The invention relates to mechanical engineering, in particular, to power engineering, in particular to power engineering, in particular to silencers of gas flow noise.

The aim of the invention is to increase the effectiveness of the noise suppressor.

FIG. 1 shows a muffler with a partial cut, longitudinal view; in fig. 2 - silencer, end view; in fig. 3 shows the node I in FIG. 2 (reflector with an internal cavity); in fig. 4 - the same, a reflector with an ejector; in fig. 5 - bulb-shaped reflector; in fig. 6 - reflector segment shape.

The silencer contains at least two housings with end openings 1 and 2 mounted concentrically and formed by reflectors 3 elongated in the direction of the longitudinal axis and curved in cross section, made of sound absorbers, its material faced with a metal sheet, and opening 2 the central body is provided with a plug 4. The reflectors 3 are made in the form of separate sections installed to form between the adjacent longitudinal exit slots 5, oriented towards the convex walls of the reflectors 3 on gun hulls. Reflectors 3 in cross section can be made of a segment (Fig. 6) or a bulbous (Fig. 5) form, the convex wall of each reflector 3 can be made of a perforated sheet 6 (Fig. 3), installed with a gap to form the internal cavity 1, communicated with the surrounding space by means of the longitudinal slotted channels 8. The reflectors 3 can be equipped with ejectors 9 (Fig. 4) connecting the internal cavity of the housing with the surrounding space. The perforated sheet 6 (Fig. 3) in the area against the longitudinal slotted channel 8 is made flat. The reflectors 3 are interconnected by means of plates 10 having a streamlined profile.

The muffler works as follows.

The gas flow flows out of the nozzle of the gas-jet device, enters the central (inner) housing of the silencer, leaves the inner housing through the longitudinal slots 5 between the reflectors 3 due to the plug 4 and spreads along the convex surface of the reflectors 3 concentric shells flat flowing streams (Fig. 2). The latter, having an ejecting effect, are sucked through the end openings 1 and 2 of the depressors and additional devices in the reflectors 3 (Fig. 3 and 4) of the mass of the surrounding secondary air and are mixed with it. The ejecting effect of gas streams spreading over the convex surfaces of the reflectors 3 increases as a result of the manifestation of the Coanda effect, which means that when the flow of a liquid or gas flows around a convex surface, a suction flows to the surface and a vacuum occurs on it. This enhances the ejection effect of flowing gas flows, i.e. increases the mass of secondary air mixed into the flowing streams. In the reflector with the internal cavity 7 (Fig. 3) the gas flow draws air through the perforation of the sheet 6 from the cavity 7, creates a vacuum in it, and the masses of ambient air through the longitudinal slit channel 8 are mixed into the gas flow. Due to the vacuum in the cavity 7, the sound-insulating properties of the reflectors 3 are increased. In the reflector with the ejector 9 (Fig. 4), the gas stream draws the mass of secondary air through the ejector 9 and mixes with it.

As a result of the spreading of the source gas flow over the surface of the reflectors 3, a rapid increase in the surface (broadening) of the source flow occurs, i.e. rapid decrease in the kinetic energy (velocity) of the latter. Intensive mixing of the secondary mass of the ambient air to the primary gas also contributes to a rapid decrease in the velocity of the initial stream. Due to the orientation of the output slots 5 of the housing on the surface of the reflectors 3 of the subsequent outer shells, the condition of direct sound visibility, i.e. the condition for the propagation of sound waves along the direct beam from the output slots 5 between the reflectors 3 into the surrounding space.

The rarefaction caused by the Coanda effect on the convex surface of the reflectors 3 prevents the propagation of sound vibrations into the surrounding space. A significant sound-absorbing volume is created around the gas stream.

Claims (4)

1. A gas flow noise silencer containing at least two housings with holes, mounted concentrically and formed by reflectors elongated in the direction of the longitudinal axis and curved in cross section, made of sound absorbing material, and the hole opposite to the source of the gas flow is provided with a plug, characterized in that, in order to increase efficiency, the reflectors are made in the form of separate sections installed to form an adjacent longitudinal outlet GOVERNMENTAL slits oriented reflectors dished walls of the outer hull, and the holes formed end. 2. The muffler according to Claim 1, characterized in that each reflector in cross section is segmented or bulbous. 3. Silencer on PP. 1 and 2, characterized in that the convex wall of each reflector is made of a perforated sheet and installed with a gap with the formation of the internal cavity, communicated with the surrounding space with the help of longitudinal shelevy.h channels. 4. Glushitel on PP. 1 and 2, characterized in that each reflector is provided with an ejector connecting the inner casing of the housing with the surrounding space. YU J 5 1