RU2651989C1 - Sound-insulating coating with vibration insulation system of process equipment - Google Patents

Abstract

FIELD: soundproofing.

SUBSTANCE: invention relates to acoustic isolation of equipment with means of broadband sound-attenuation and can be used in all sectors of the national economy as a means of protection against noise. Soundproof enclosure with sound attenuating system of vibration isolation of process equipment is made in the form of a rectangular parallelepiped covering the process equipment, covering the process equipment. Process equipment is installed on at least four vibration-proof supports, that are based on the bridging of the building. Clearance between the base of the process equipment and the cutoff in the lower face of the rectangular parallelepiped is made. Fan is installed inside the casing, and in the sound-proof enclosure ventilation ducts are made, the internal walls of which are treated with sound-absorbing material and acoustically transparent material. In the casing there are noise silencers installed respectively on the inlet and outlet ventilation ducts. On the soundproofing enclosure inner surface, a sound-absorbing element in the form of a smooth and perforated surfaces is secured, between which a multi-layer sound absorbing structure is arranged. Each of the four vibration isolation supports of the vibration isolation system of the process equipment is made in the form of a spring-loaded vibration, containing a body and an elastic element of elastomer, the body is made in the form of a rectangular base to which the cover is attached, the mounting holes and the central opening are formed in the base, and the resilient member is disposed between the inner surface of the lid and the outer surface of the mounting member, formed as a hub with a central bore and collar. In the lower part, the elastic element has a recess in the form of an arch.

EFFECT: technical result is to increase the efficiency of noise suppression.

1 cl, 3 dwg

Description

The invention relates to soundproofing equipment.

The closest technical solution to the claimed object is an acoustic casing for equipment according to the patent of the Russian Federation No. 2311286 (prototype), containing a housing and damping elements located inside it.

A disadvantage of the known devices is the relatively low efficiency of sound attenuation due to the absence of silencers in the holes of the casing, designed to maintain thermal balance.

The technical result is an increase in the efficiency of noise suppression.

This is achieved by the fact that in a soundproof enclosure with a vibration isolation system for technological equipment made in the form of a rectangular parallelepiped covering technological equipment, the technological equipment is installed on at least four vibration-isolating supports that are based on the ceiling of the building, while between the base of the technological equipment and the cutout the bottom of the rectangular parallelepiped made a gap designed to prevent transmission of vibrations from the technological equipment to the soundproof enclosure of the casing, and to ensure the required microclimate during the process, a fan is installed inside the casing, and ventilation ducts are made in the soundproof enclosure to eliminate overheating of the equipment, while the inner walls of the ventilation ducts are treated with sound-absorbing material and acoustically transparent material of the “seen” type at the same time, to reduce the aerodynamic noise of the ventilation system, noise mufflers are provided in the casing installed respectively on the inlet and outlet ventilation ducts, while on the inner surface of the soundproof fence there is a sound-absorbing element in the form of smooth and perforated surfaces, between which a multilayer sound-absorbing structure is placed, and each of the four vibration-isolating supports of the vibration isolation system of technological equipment is made in the form of a vibration isolator containing the body and the elastic element are made of elastomer, the body is made in the form of a rectangular base, to which when The lid is connected, the mounting holes and the central hole are made at the base, and the elastic element is located between the inner surface of the lid and the outer surface of the mounting element made in the form of a sleeve with a central hole and a shoulder, and in the lower part the elastic element has a recess in the form of an arch, and the thickness the elastomer above the arch and under the shoulder is 10% ... 20% of the height of the elastic element.

In FIG. 1 shows a diagram of a soundproof casing with a vibration isolation system for technological equipment, FIG. 2 shows a frontal section of a vibration isolator; FIG. 3 - view from above.

A soundproof fence (Fig. 1) with a vibration isolation system for technological equipment covers technological equipment 1, which is installed on the floor 5 of the building by means of at least four vibration-isolating supports 12 and 13 made of an elastic material, for example, soft rubber, polyurethane.

The soundproofing fence 6 is lined on the inside with a sound-absorbing element 7 and has the shape of a rectangular parallelepiped with a cutout in its lower face under the base 2 of the technological equipment 1. The base 2 of the technological equipment 1 is installed on at least four vibration-isolating supports 3 and 4, which are based on the ceiling 5 production building, while between the base 2 of the technological equipment 1 and the cutout in the lower face of the rectangular parallelepiped, a gap is made for the suit radiation transmission from technological equipment 1 to a soundproof fence 6. To ensure the required microclimate during the process, a fan 15 is installed inside the casing with ventilation ducts 8 and 9 to eliminate overheating of the equipment, while the inner walls 10 of the ventilation ducts 8 and 9 are treated with sound-absorbing material 11 and acoustically transparent material like "poviden". To reduce the aerodynamic noise of the ventilation system, silencers 14 and 16 are installed in the casing, which are installed on the input 8 and output 9 ventilation channels, respectively.

The calculation of the required sound insulation of the casing as an unsealed enclosure, dB, is carried out according to the following relationship:

,

,

- реверберационный коэффициент звукопоглощения внутри i-го кожуха; где α_о - реверберационный коэффициент звукопоглощения для ограждений без звукопоглощающего материала; α_м - реверберационный коэффициент звукопоглощения звукопоглощающего материала; ∑S_м - площадь нанесения звукопоглощающего материала, м², τ_i - энергетический коэффициент прохождения звука через глушитель технологического отверстия (для простого отверстия τ_i=1, причем простым отверстием считается отверстие без глушителя шума, как в нашем случае); ∑S_oi - суммарная площадь технологических отверстий для i-гo кожуха машины, м²; ∑S_i - суммарная площадь сплошной части ограждения, м².where R _leather.tr is the required sound insulation of the casing, dB, R _si is the average sound insulation of the solid part of the fencing of the i-th casing, dB;

- reverberation coefficient of sound absorption inside the i-th casing; where α _about - the reverberation coefficient of sound absorption for fences without sound-absorbing material; α _m - reverberation coefficient of sound absorption of sound-absorbing material; ∑S _m is the area of application of sound-absorbing material, m ² , τ _i is the energy coefficient of sound transmission through the silencer of the technological hole (for a simple hole τ _i = 1, and a simple hole is considered to be a hole without a silencer, as in our case); ∑S _oi - the total area of technological holes for the i-th casing of the machine, m ² ; ∑S _i - total area of the solid part of the fence, m ² .

In FIG. 2 shows a frontal section of the vibration isolator of one of the four vibration isolating supports 3 and 4 of the vibration isolation system, on which the processing equipment 1, based on the floor 5 of the building, is installed, in FIG. 3 is a top view of a vibration isolator.

The vibration isolator comprises a housing made in the form of a rectangular base 17 to which a cover 18 is attached. Mounting holes 25 and a central hole 26 are made in the base 17. An elastic element 21 is located between the inner surface of the cover 18 and the outer surface of the mounting element 19, made in the form of a sleeve with the Central hole 20 and the shoulder 22. The hole 20 is coaxial with the hole 26 in the base 17. In the lower part, the elastic element has a recess 23 in the form of an arch, and the thickness of the elastomer above the arch and under the shoulder 22 is 10% ... 20% of the height of the elastic element.

Vibration isolator works as follows.

With fluctuations in the technological equipment 1 installed on the floor 5 of the building, the elastic element 21 perceive vertical loads, thereby weakening the dynamic effect on the floors of buildings. Horizontal vibrations are damped due to the unrestricted location of the elastic element, which gives it a certain degree of freedom of vibrations in the horizontal plane.

Sound insulation fence works as follows.

Soundproof casing 6 (Fig. 1) is installed on the floor 5 of the building by means of at least four vibration-isolating supports 12 and 13 made of elastic material, for example soft rubber, polyurethane, or vibration isolators. The soundproof fence 6 is lined (fixed on it) from the inside with a sound-absorbing element 7. The soundproof fence 6 is made in the form of a rectangular parallelepiped with a cutout in its lower face under the base 2 of the technological equipment 1. The base 2 of the technological equipment 1 is installed on at least four vibration isolating supports 3 and 4 (Fig. 2 and 3), which are based on the overlap 5 of the industrial building, while between the base 2 of the technological equipment 1 and the cutout in the lower gran a rectangular parallelepiped perform a gap designed to prevent transmission of vibrations from the processing equipment 1 to the soundproof fence 6. In the soundproof fence 6, ventilation ducts 8 and 9 are performed to eliminate overheating of the equipment, while the inner walls 10 of the ventilation ducts 8 and 9 are treated with sound-absorbing material 11 and acoustically transparent material like "poviden". The sound-absorbing element 7 is fixed on the inner surface of the soundproof fence 6 and is made in the form of smooth and perforated surfaces, between which a multilayer sound-absorbing structure is placed.

Claims (1)

A soundproof fence with a vibration isolation system for technological equipment made in the form of a rectangular parallelepiped covering technological equipment, technological equipment is installed on at least four vibration-isolating supports based on the building floor, and a gap is made between the base of the technological equipment and the cutout in the lower face of the rectangular parallelepiped designed to exclude the transmission of vibrations from process equipment to sound a casing insulating fence, and to ensure the required microclimate during the process, a fan is installed inside the casing, and ventilation ducts are made in the soundproof enclosure to eliminate equipment overheating, while the inner walls of the ventilation ducts are treated with sound-absorbing material and acoustically transparent material of the “seen” type, To reduce the aerodynamic noise of the ventilation system, noise mufflers are installed in the casing. at the inlet and outlet ventilation ducts, while on the inner surface of the soundproofing fence a sound-absorbing element is fixed in the form of smooth and perforated surfaces, between which a multilayer sound-absorbing structure is placed, characterized in that each of the four vibration-isolating supports of the vibration isolation system of technological equipment is made in the form of a vibration isolator, comprising a housing and an elastic element of elastomer, the housing is made in the form of a rectangular base, to which is attached A cover is provided, installation holes and a central hole are made at the base, and the elastic element is located between the inner surface of the cover and the external surface of the installation element made in the form of a sleeve with a central hole and a shoulder, and in the lower part the elastic element has a recess in the form of an arch.

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