RU2298667C1 - Combination type noise silencer - Google Patents

Abstract

FIELD: processes and equipment for noise silencing.

SUBSTANCE: combination type noise silencer includes cylindrical housing rigidly joined with end inlet branch pipe and with outlet branch pipe; sound absorber arranged between cylindrical housing and perforated member; acoustically transparent material arranged between perforated member and sound absorber. Sound absorbing cylindrical insert is arranged along axis of nose silencer. On one end side of perforated cylindrical insert cone shaped deflector is mounted. Cylindrical insert is secured to inlet and outlet branch pipes at least by means of two rigidity ribs arranged in plane normal to axis of noise silencer. Sound absorber is arranged inside cylindrical insert. Acoustically transparent material placed between perforated member of insert and sound absorber is also arranged inside said cylindrical insert.

EFFECT: improved efficiency of noise silencing.

7 cl, 2 dwg

Description

The invention relates to a technique for damping noise.

The closest technical solution for the technical essence is a silencer according to RF Patent No. 2062889, F01N 1/00, 1994, containing a cylindrical body, inlet and outlet pipes and a sound absorber (prototype).

Its disadvantage is the relatively low efficiency of sound attenuation.

The technical result is an increase in the efficiency of sound attenuation.

This is achieved by the fact that in a combined noise muffler comprising a cylindrical body rigidly connected to an end inlet and outlet nozzles, a sound absorber located between the cylindrical body and the perforated element, and an acoustically transparent material located between the perforated element and the sound absorber, the axis of the muffler being installed a sound-absorbing cylindrical insert, on one of the end sides of the perforated cylindrical insert a cone-shaped fairing is fixed, and the cylindrical insert is fixed to the inlet and outlet pipes by means of at least two stiffeners located in a plane perpendicular to the axis of the muffler, and a sound absorber and an acoustically transparent material located between the perforated insert element and the sound absorber are located inside the cylindrical insert.

Figure 1 presents a frontal section of the proposed silencer, figure 2 is a profile projection.

Combined silencer includes a cylindrical body 3, rigidly connected to the end inlet and outlet pipes 1, a sound absorber 2 located between the cylindrical body 3 and the perforated element 4, and an acoustically transparent material (not shown), located between the perforated element 4 and the sound absorber 2 moreover, a sound-absorbing cylindrical insert 5 is installed along the axis of the muffler 5. On one of the end faces of the perforated cylindrical insert 5, a fairing 8 of a conical shape is fixed we, and the cylindrical insert is fixed to the inlet and outlet pipes 1 by means of at least two stiffeners 6 and 7 located in planes perpendicular to the axis of the muffler, and inside the cylindrical insert 5 there is a sound absorber and an acoustically transparent material located between the perforated insert element and sound absorber. The silencer resistance is determined by the size of the gap 10 between the inner diameter D of the cylindrical body 3 and the outer diameter D _{1 of the} cylindrical insert 5.

The ratio of the outer diameter D _{1 of the} cylindrical insert to the inner diameter D of the housing lies in the optimal range of values: D ₁ /D=0.56...0.71; and the ratio of the difference between the inner diameter D of the cylindrical body and the outer diameter D _{1 of the} cylindrical insert to the length of the muffler L lies in the optimal range of values: (Dd) / L = 0.11 ... 0.15; and the ratio of the inner diameter D of the cylindrical body to the length of the muffler L lies in the optimal range of values: D / L = 0.25 ... 0.5; and the ratio of the outer diameter D _{1 of the} cylindrical insert to the length of the muffler L lies in the optimal range of values: D ₁ /L=0.14...0.36.

The housing 3 and the nozzles 1 are made of structural materials, with a layer of soft vibration-damping material, for example, VD-17 mastic or “Gerlen-D” type material applied to their surface on one or two sides, while the ratio between the thicknesses of the material and the vibration-damping coating lies in the optimal range of values: 1 / (2.5 ... 3.5).

The sound absorber located in the housing and the cylindrical insert is made of rockwool basalt mineral wool or URSA type mineral wool or P-75 basalt wool or glass wool lined with glass wool or foamed polymer, such as polyethylene or polypropylene, and the sound-absorbing element over its entire surface is lined with an acoustically transparent material, for example fiberglass type EZ-100 or a polymer of the type "Poviden".

The sound absorber is made on the basis of aluminum-containing alloys, followed by filling them with titanium hydride or air with a density in the range of 0.5 ... 0.9 kg / m ³ with the following strength properties: compressive strength in the range of 5 ... 10 MPa, tensile strength bending within 10 ... 20 MPa.

The sound absorber is made of a rigid porous sound-absorbing material, for example, foam aluminum or cermets, or metal foam, or a shell rock with a degree of porosity in the range of optimal values: 30 ... 45%. The sound absorber is made in the form of crumbs from solid vibration-damping materials, for example, elastomer, polyurethane, or plastic compound such as Agate, Anti-Vibrate, Shvim, and the size of the fractions of the crumb lies in the optimal range of values: 0.3 ... 2.5 mm .

Combined silencer works as follows. Sound waves, together with a turbulent stream of compressed air, enter the silencer cavity 10 and interact with a sound absorber located in the body and cylindrical insert 5. Sound energy is transferred to thermal energy (dissipation, energy dissipation) in the sound absorber pores, which are a model of Helmholtz resonators, where energy losses occur due to friction, which varies with the frequency of excitation, the mass of air in the cavity of the resonator against the walls of the mouth itself, having the form of a branched network of sound absorber. The perforation coefficient of the perforated element 4 is taken to be equal to or more than 0.25. To prevent the soft sound absorber from spilling out, an acoustically transparent material is provided, for example, fiberglass type EZ-100, located between the sound absorber 2 and the perforated element 4.

Claims (7)

1. A combined silencer comprising a cylindrical body rigidly connected to an inlet and outlet end pipe, a sound absorber located between the cylindrical body and the perforated element, and an acoustically transparent material located between the perforated element and the sound absorber, and a sound-absorbing cylindrical insert is installed along the axis of the silencer, characterized in that on one of the end faces of the perforated cylindrical insert a cone-shaped fairing is fixed, and indricheskaya insert is fixed to the inlet and outlet through at least two stiffening ribs disposed in a plane perpendicular to the silencer axis, said cylindrical insert located inside the absorber and acoustically transparent material disposed between the perforated member and inserting a sound absorber. 2. The combined silencer according to claim 1, characterized in that the ratio of the outer diameter D _{1 of the} cylindrical insert to the inner diameter D of the housing lies in the optimal range of values: D ₁ / D = 0.56 - 0.71, and the ratio of the difference of the inner diameter D of the cylindrical body to the outer diameter D _{1 of the} cylindrical insert to the length of the muffler L lies in the optimal range of values: (Dd) / L = 0.11 - 0.15, and the ratio of the inner diameter D of the cylindrical body to the length of the muffler L lies in the optimal range of values : D / L = 0.25 - 0.5, and the ratio of the outer diameter D ₁ C the cylindrical insert to the length of the muffler L lies in the optimal range of values: D ₁ / L = 0.14 - 0.36. 3. The combined silencer according to claim 1, characterized in that the silencer and insert body are made of structural materials with a layer of soft vibration-damping material, for example, VD-17 mastic or Gerlen-D type material, applied on its surface ”, The ratio between the thicknesses of the material and the vibration damping coating lies in the optimal range of 1 / (2.5 - 3.5). 4. The combined silencer according to claim 1, characterized in that the sound absorber located in the housing and the cylindrical insert is made of rockwool type mineral wool or URSA type mineral wool or P-75 type cotton wool or glass wool lined with glass wool or a foamed polymer, for example polyethylene or polypropylene, the sound-absorbing element over its entire surface lining with an acoustically transparent material, for example fiberglass type EZ-100 or polymer type "Poviden". 5. The combined silencer according to claim 1, characterized in that the sound absorber located in the housing and the cylindrical insert is made on the basis of aluminum-containing alloys, followed by filling them with titanium hydride or air with a density in the range of 0.5 - 0.9 kg / m ³ with the following strength properties: compressive strength in the range of 5 to 10 MPa, bending strength in the range of 10 to 20 MPa. 6. The combined silencer according to claim 1, characterized in that the sound absorber located in the housing and the cylindrical insert is made of rigid porous sound-absorbing material, for example foam aluminum, or cermets, or metal foam, or a shell rock with a degree of porosity in the range optimal values of 30 - 45%. 7. The combined silencer according to claim 1, characterized in that the sound absorber located in the housing and the cylindrical insert is made in the form of crumbs of solid vibration damping materials, for example elastomer, polyurethane, or plastic compound such as "Agate", "Anti-vibration", "Shvim ", And the size of the fractions of crumbs lies in the optimal range of values of 0.3 - 2.5 mm

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