RU2661425C1 - Combined noise muffler - Google Patents

Abstract

FIELD: acoustics.

SUBSTANCE: invention relates to the noise suppression equipment. Noise suppressor contains the cylindrical casing, which is rigidly connected with the end inlet and outlet pipes, with the central partition, the body is internally lined with sound absorbing material, and the central partition is made in the form of a perforated pipe rigidly connected on one side with an inlet pipe, and, on the other hand, with a ring of L-shaped profile forming an annular gap with a circular slit with the inner surface of the body, the gap being filled with a sound-absorbing material, sound-absorbing element, which is lined inside the body, is made in the form of two outer perforated walls and an inner, middle wall, made in the form of a membrane resonant plate, between which are placed layers of sound absorbing material, the frame is made symmetrical with respect to the middle wall, which divides it into two congruent parts, each of which has three layers of sound-absorbing material, and more rigid, first layers are made solid, profiled and fixed respectively on the outer perforated walls, second layers, softer than the first ones, are made intermittent and located with a gap in the focus of the sound reflecting surfaces of the first layers, the second layers have a rotation body shape in the form of cones connected by bases, and the first layers are made of a material with a sound reflecting coefficient greater than its sound absorption coefficient in the form of profiles of conical surfaces that focus the reflected sound on the second layers, and the third sound-absorbing layers are made of foamed sound-absorbing material in the form of a construction sealing foam and are located in gaps and voids formed between the first and second layers, wherein each of the outer perforated walls is rigidly connected to the corresponding second layer by means of vertical fastening elements perpendicular thereto, made in the form of plates, one end of which is rigidly fixed to the outer perforated wall, and the second end is made in the form of clamps covering respectively the rods and tightening them with screws, the rods are made parallel to the perforated walls, and the middle wall, made in the form of a membrane resonant plate, is rigidly connected to the frame by the construction of a sealing foam located in the gaps and cavities of the frame.

EFFECT: higher efficiency of noise suppression.

3 cl, 2 dwg

Description

The invention relates to a technique for damping noise.

The closest technical solution in technical essence is a multi-chamber silencer according to RF patent No. 2280173 (prototype), containing a cylindrical body, an end exhaust pipe, rigidly connected to a central pipe having perforation, perforated partitions made in the form of an additional coaxial located to the body and central pipe perforated pipes, and the ends of all pipes are rigidly connected to the body by means of blind partitions.

The disadvantage of the prototype is the relatively low efficiency of sound attenuation due to the possibility of the occurrence of a "radiation effect" and, as a result, the penetration of sound waves both along the axis of the muffler and through its two walls.

A technically achievable result is an increase in the efficiency of sound attenuation by tuning the chamber part of the muffler by selecting the properties of the sound-absorbing element and tuning the resonant part of the muffler.

This is achieved by the fact that in a combined noise muffler containing a cylindrical body rigidly connected to the front inlet and outlet pipes, with a central partition, the housing is lined with sound-absorbing material from the inside, and the central partition is made in the form of a perforated pipe rigidly connected on one side to the inlet pipe and, on the other hand, with an L-shaped ring, which forms an annular gap with a circular slit with the inner surface of the housing, the gap being filled with sound-absorbing material, the absorbing element, which is lined with the inside of the case, is made in the form of two external perforated walls and an inner, middle wall made in the form of a membrane resonant plate, between which layers of sound-absorbing material are placed, while the frame is made symmetrical with respect to the middle wall, which divides it into two congruent parts, each of which has three layers of sound-absorbing material, the more rigid first layers being continuous, profiled and fixed respectively to external pe perforated walls, the second layers, softer than the first, are intermittent and arranged with a gap in the focus of the sound-reflecting surfaces of the first layers, the second are in the form of bodies of revolution in the form of cones connected by the bases, and the first layers are made of material with a sound reflection coefficient greater than its sound absorption coefficient, in the form of profiles of conical surfaces focusing the reflected sound on the second layers, the third sound-absorbing layers are made of foam sound-absorbing material in the form of building sealing foam and are located in the gaps and voids formed between the first and second layers, while each of the outer perforated walls is rigidly connected to its corresponding second layer by means of vertical fastening elements perpendicular to it, made in the form of plates, one end of which is rigidly fixed to the outer perforated wall, and the second end is made in the form of clamps, respectively covering the rods and tightening them with screws, while the rods are made parallel to the perforated walls, and cf the back wall, made in the form of a membrane resonant plate, is rigidly connected to the frame due to the construction sealing foam located in the gaps and voids of the frame.

In FIG. 1 shows a frontal section of the proposed silencer, FIG. 2 - a variant of the sound-absorbing element 5, which is lined with the inside of the housing 1.

Combined silencer contains a cylindrical housing 1, rigidly connected to the front inlet 2 and 4 exhaust pipes. The Central pipe 2 is made with holes 3 of diameter d ₀ located in planes perpendicular to the axis of the pipe and spaced from each other at a distance of " a ". From the inside, the housing is lined with a sound-absorbing element 5, which forms a resonant cavity 6 of volume V _R with the outer surface of the pipe. On the other hand, a ring of an L-shaped profile 7 is attached to the pipe with a gap s between the body and the ring forming a chamber 10 of volume V _k . The cavity formed by the gap s is filled with sound-absorbing material 8. The entrance to the annular gap s is a circular slit 9 of size z, and it plays the role of the neck of the resonator.

The sound-absorbing element 5 (Fig. 2), which is lined on the inside of the housing 1, is made in the form of two external perforated walls 11 and 12 and an inner, middle wall 13 made in the form of a membrane resonant plate, between which layers 14, 15, 16, 17 are placed , 22, 23 sound-absorbing material. The frame is made symmetrical with respect to the middle wall 13, which divides it into two congruent parts, each of which has three layers of sound-absorbing material.

The stiffer first layers 14 and 15 are solid, profiled and fixed on the outer 11 and 12 perforated walls, respectively, the second layers 16 and 17, softer than the first, are intermittent and are located with a gap in the focus of the sound-reflecting surfaces of the first layers 14 and 15.

The second layers 16 and 17 are in the form of bodies of revolution in the form of cones connected by bases. The first layers 14 and 15 are made of material with a sound reflection coefficient greater than its sound absorption coefficient, in the form of profiles of conical surfaces focusing the reflected sound on the second layers 16 and 17. The third sound-absorbing layers 22 and 23 are made of foamed sound-absorbing material in the form of a building sealing foam and are located in the gaps and voids formed between the first and second layers.

Each of the external perforated walls 11 and 12 is rigidly connected with the second layer 16 and 17 corresponding to it by means of vertical fastening elements 20 and 21 perpendicular to it, made in the form of plates, one end of which is rigidly fixed to the external perforated wall, and the second end is made in the form clamps, covering the rods 18 and 19, respectively, and tightening them with screws. While the rods 18 and 19 are made parallel to the perforated walls 11 and 13.

The middle wall 13, made in the form of a membrane resonant plate, is rigidly connected to the frame due to the construction sealing foam located in the gaps and voids of the frame.

The first layers are made of sound-absorbing material based on aluminum-containing alloys filled with titanium hydride or air with a density in the range of 0.5 ... 0.9 kg / m ³ , compressive strength in the range of 5 ... 10 MPa, bending strength in the range of 10 ... 20 MPa, for example from foam aluminum.

As sound-absorbing material of the second, softer layers, rockwool type mineral wool or URSA type mineral wool or P-75 type basalt wool or glass wool lined with glass wool or foamed polymer, such as polyethylene or polypropylene.

The material of the perforated walls 11, 12 and 13 is made of solid decorative vibration-damping materials, such as plastic compounds such as Agate, Anti-Vibrate, Shvim, and the inner surface of the perforated surface of the walls facing the sound-absorbing material is lined with an acoustically transparent material, such as fiberglass type EZ-100 or polymer type "Poviden."

Sound absorber works as follows.

Sound energy, passing through a layer of one of the external perforated walls 11 or 12, and then through the third layers of a sound absorber made of foamed sound-absorbing material, falls on an intermittent sound-absorbing layer located at the focus of a continuous profiled layer, where the primary dissipation of sound energy occurs. Then, the sound energy enters the continuous profiled layer 14 or 15 from the sound-absorbing material, where the sound energy is converted into heat (dissipation, energy dissipation), i.e. in the pores of the sound absorber, representing the Helmholtz resonator model, there are energy losses due to friction, which fluctuates with the excitation frequency of the mass of air in the mouth of the resonator, against the wall of the neck itself, which has the form of a branched network of micropores of the sound absorber. Low-frequency sound absorption is due to the membrane resonant plate 13.

It is possible that on one of the opposite cones of the second layers 16 and 17 connected by the bases of the cones, resonant holes (not shown in the drawing) are made that serve as the neck of Helmholtz resonators, while the resonant holes are made of different diameters to absorb sound energy in a wide range frequencies. An embodiment of one of the external perforated walls is continuous, combined (not shown in the drawing), consisting of three layers: the central layer is made of crumb vibration damping materials: rubber, cork, polystyrene, capron, foamed polymer, Shvim plastic compound, with fraction size crumbs 1.5 ÷ 2.5 mm, filled with elastomer, polyurethane, or from a continuous damping material in which sponge rubber is used, or needle-punched material “Vibrosil” based on silica or aluminoborosilicate fiber, or n woven vibration damping material and the oppositely disposed layers are of "agate" hard vibration damping material or "Antivibrit".

Combined silencer works as follows.

Sound waves along with a turbulent stream of compressed air enter the cavity of the housing 1 and meet in their way the central resonant tube 2 with holes 3, which provides the effect of damping the sound wave according to the principle of the Helmholtz resonator. The chamber cavity 7 formed by the ring of the L-shaped profile performs the function of an acoustic low-pass filter. An increase in the efficiency of sound attenuation occurs due to the presence of a sound-absorbing layer 5 on the inner surface of the housing and due to an additional resonant built-in muffler formed by a cavity 8 with an annular gap s and a circular slit 9.

Claims (3)

1. Combined silencer containing a cylindrical body rigidly connected to the front inlet and outlet pipes, with a central partition, the housing is lined with a sound-absorbing element from the inside, and the central partition is made in the form of a perforated pipe rigidly connected on one side to the inlet pipe and on the other - with a ring of a L-shaped profile, forming an annular gap with a circular slit with the inner surface of the housing, the gap being filled with sound-absorbing material, while the sound-absorbing element The NT, which is lined with the inside of the case, is made in the form of two external perforated walls and an inner, middle wall, made in the form of a membrane resonant plate, between which layers of sound-absorbing material are placed, while the frame is made symmetrical with respect to the middle wall, which divides it into two congruent parts , each of which has three layers of sound-absorbing material, more rigid, the first layers are solid, profiled and mounted respectively on external perforated with However, the second layers, softer than the first, are intermittent and arranged with a gap in the focus of the sound-reflecting surfaces of the first layers, the second are in the form of bodies of revolution in the form of cones connected by bases, and the first layers are made of material with a sound reflection coefficient greater than its sound absorption coefficient, in the form of profiles of conical surfaces focusing the reflected sound on the second layers, the third sound-absorbing layers are made of foamed sound-absorbing material in the form of a building sealing They are located in the gaps and voids formed between the first and second layers, while each of the external perforated walls is rigidly connected to the corresponding second layer by means of vertical fasteners perpendicular to it, made in the form of plates, one end of which is rigidly fixed to the external perforated wall, and the second end is made in the form of clamps, covering rods, respectively, and tightening them with screws, while the rods are made parallel to the perforated walls, and the middle wall, you filled in the form of a membrane resonant plate, is rigidly connected with the frame due to the construction sealing foam located in the gaps and voids of the frame, characterized in that on one of the opposite cones of the second layers of the sound-absorbing element connected by the bases of the cones, resonant holes are made that serve as a neck Helmholtz resonators, while the resonant holes are made of different diameters to absorb sound energy in a wide frequency range. 2. The combined silencer according to claim 1, characterized in that the first layers of the sound-absorbing element are made of sound-absorbing material based on aluminum-containing alloys filled with their titanium hydride or air with a density in the range of 0.5 ... 0.9 kg / m ³ , strength for compression within 5 ... 10 MPa, bending strength within 10720 MPa, for example from foam aluminum. 3. The combined silencer according to claim 1, characterized in that as rock sound absorbing material of the second, softer layers of the sound-absorbing element, rockwool type mineral wool or URSA type mineral wool or P type basalt wool is used -75, or glass wool lined with glass wool, or foamed polymer, such as polyethylene or polypropylene.

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