RU2439253C1 - Acoustically comfortable room with noise protective equipment - Google Patents

Abstract

FIELD: machine building. ^ SUBSTANCE: acoustic design of production facilities includes the shop frame, load-carrying walls with enclosures in the form of floor and ceiling, which are lined with sound-absorbing structures, window and door openings. Single-piece acoustic absorbers containing the frame in which sound-absorbing material is located are installed above the noise equipment. Floor is made on elastic base and includes mounting plate. The latter is made from concrete reinforced with vibration damping material and installed on base plate of floor covering with cavities through the layers of vibration damping material and waterproof material with a gap relative to load-carrying walls of production facilities. Cavities of base plate are filled with vibration damping material, for example foamed polymer. ^ EFFECT: invention allows increasing noise absorption efficiency. ^ 7 cl, 7 dwg

Description

The invention relates to industrial acoustics, in particular to broadband sound attenuation, and can be used in all sectors of the economy as a means of protection against noise.

The closest technical solution to the technical nature and the achieved result is the acoustic design according to the patent of the Russian Federation No. 2366785, class. F01N 1/04, [prototype], comprising a frame on the ceiling of a building and a wall with sound-absorbing lining.

The disadvantage of the technical solution adopted as a prototype is the relatively low noise attenuation efficiency due to the relatively low coefficient of vibration damping of the floor.

The technical result is an increase in sound attenuation efficiency.

This is achieved by the fact that in the acoustic structure of the workshop, containing the workshop framework, bearing walls with fences in the form of floor and ceiling, which are lined with sound-absorbing structures, window and door openings, as well as piece sound absorbers containing the frame in which the sound-absorbing material is located, and installed above noisy equipment, the floor is made on an elastic base and contains a mounting plate made of concrete reinforced with vibration-damping material, which is installed on the base plate of the interfloor overlapping cavities through layers of vibration damping material and waterproofing material with a gap relative to the bearing walls of the production room, the cavities of the base plate being filled with vibration damping material, for example, foamed polymer.

In Fig.1 shows a General view of the industrial premises with soundproofing equipment, Fig.2 is a section of the floor of the building, Fig.3 is a General view of the acoustic casing, Fig.4 is a section aa of Fig.3; figure 5, 6, 7 - embodiments of the casing.

Acoustically comfortable room with soundproofing equipment (figure 1) contains the frame of the workshop (not shown in the drawing), window 9 and door 10 openings and load-bearing walls 1, 2, 3, 4 with fences 5, 6 (floor and ceiling), which are lined sound-absorbing structures, as well as piece sound absorbers 7 and 8, containing a frame in which sound-absorbing material is located and installed above the noisy equipment 11, which, in turn, is protected by an acoustic casing (Figs. 3-7). The floor structure on an elastic base (Fig. 2) contains a mounting plate 12 made of concrete reinforced with vibration damping material, which is installed on the base plate 15 of the floor with cavities 16 through layers of vibration damping material 14 and waterproofing material 13 with a gap 17 relative to the bearing walls 1, 2, 3, 4 production facilities. In order to ensure effective vibration isolation of the mounting plate 12 in all directions, the layers of the vibration damping material 14 and the waterproofing material 13 are made with a flange that is tightly adjacent to the supporting structures of the walls 1, 2, 3, 4 and the base supporting plate 15 of the floor. To increase the efficiency of sound insulation and sound absorption in the workshops located under the floor, the cavities 16 are filled with vibration damping material, for example, foamed polymer, for example polyethylene or polypropylene, and walls 1, 2, 3, 4 are lined with sound-absorbing structures. As sound-absorbing material of sound-absorbing structures, slabs made of rockwool basalt-based mineral wool or URSA-type mineral wool or P-75 basalt wool or glass-wool lining are used, and the sound-absorbing element is acoustically lined over its entire surface transparent material (not shown), such as fiberglass type EZ-100 or polymer type "Poviden."

As a sound-absorbing material, a rigid porous material can also be used, for example foam aluminum or cermets, or a shell rock with a degree of porosity in the range of optimal values: 30–45%. As a sound-absorbing material, a material in the form of crumbs from solid vibration-damping materials, for example, elastomer, or polyurethane, or plastic compound can be used, moreover, the size of the fractions of the crumb lies in the optimal range of values: 0.3 ÷ 2.5 mm (not shown in the drawing).

The acoustic casing (Figs. 3-7) contains rigid walls 18 that fit the protected equipment 20 in shape, and associated perforated walls 25 between which sound-absorbing material 19 is located, and the rigid walls 18 form a profile congruent to the equipment 20, equipped with noise mufflers 23 and 24 for the output of technological units and heat removal, which may contain sound absorbers 9 (figure 4). The rigid walls 18 and 19 form a removable profile (FIG. 5), sliding by means of two parts 27 and 28 (FIG. 6) sliding apart in different directions or by a bonnet by means of a type 29, which hinges on hinges, types, each of which is mounted on the base by means of vibration damping pads 22, for example, rugs of the type KV-1 or KV-2. Equipment 3 is installed on vibration isolators 4. Metal-ceramic with a degree of porosity in the range of optimal values: 30 ... 45% is used as a sound-absorbing material. As a sound-absorbing material, an element in the form of a layer-wise and cross-wound of porous threads wound on an acoustically transparent frame, for example, a wire frame (not shown) or an element of a rigid porous noise-absorbing material, for example, metal foam or a shell rock, can be used.

As a sound-absorbing material 25, cermet or composite materials with a degree of porosity in the range of optimal values: 30 ... 45%, or elements in the form of layer-wise and cross-wound porous threads wound on an acoustically transparent frame, such as a wire frame, or elements from a rigid porous sound-absorbing material, for example, metal foam, foam aluminum or shell rock (not shown).

Sound-absorbing material 25 can be made in the form of crumbs of solid vibration-damping materials, such as 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.

Acoustically comfortable room with soundproofing equipment operates as follows.

Sound energy from the equipment 11 located in the room falls on the layers of sound-absorbing material of sound-absorbing structures, which are lined with load-bearing walls 1, 2, 3, 4 with fences 5, 6 (floor 6 and ceiling 5), as well as piece sound absorbers 7 and 8, containing, the frame in which the sound-absorbing material is located, and which are installed above the noisy equipment 11. The transition of sound energy into heat (dissipation, energy dissipation) occurs in the pores of the sound absorber, representing the Helmholtz resonator model, where and energies occur due to friction, fluctuating with the frequency of excitation, the mass of air located in the cavity of the resonator against the walls of the mouth itself, having the form of a branched network of pores of a sound absorber. The perforation coefficient of the perforated wall is taken to be equal to or more than 0.25. To prevent the eruption of a soft sound absorber, a fiberglass fabric, for example, type EZ-100, is located between the sound absorber and the perforated wall.

Sound waves propagating in the production room interact with cavities filled with sound absorber.

The interaction of sound waves with active cavities filled with a non-combustible sound absorber leads to sound attenuation in the high-frequency range, and due to the presence of cavities, the sound absorption surface increases, and, as a result, the sound absorption coefficient increases.

When installing vibroactive equipment on the plate 12, two-stage vibration protection occurs, due to vibration damping inclusions in the mass of the plate 12, as well as due to the layer of vibration damping material 14, which can be used: needle-punched mats of the type “Vibrosil” based on silica or aluminoborosilicate fiber, material from solid vibration-damping materials, for example plastic compound, from soundproof plates based on glass staple fiber of the “Shumostop” type with a material density of 60 ÷ 80 kg / m ³ .

The acoustic casing mounted on the equipment operates as follows.

The sound energy from the equipment 20, passing through the perforated wall 25, enters the layers of the sound-absorbing layer 29 (which can be either soft, for example, from basalt or glass fiber, or hard, for example, like an acigranum, etc.). The transition of sound energy into heat (dissipation, energy dissipation) occurs in the pores of the sound absorber, which are the Helmholtz resonator model, where energy losses occur due to friction of the mass of air in the resonator neck oscillating with the excitation frequency against the neck wall, which has the form of a branched sound absorber pore network. The perforation coefficient of the perforated wall 25 is taken to be equal to or more than 0.25. To prevent the spillage of the soft sound absorber 2, a fiberglass fabric, for example, type EZ-100, is located between the sound absorber 29 and the perforated wall 25.

As sound-absorbing material, slabs made of rockwool basalt mineral wool or URSA mineral wool or P-75 basalt wool or glass wool lined with glass wool or foamed polymer, such as polyethylene or polypropylene, are used as sound absorbing material. the element is lined with an acoustically transparent material over its entire surface, for example, fiberglass type EZ-100 or polymer like Poviden. As sound-absorbing material 8, plates based on aluminum-containing alloys are used, 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, strength bending within 10 ... 20 MPa (not shown).

Claims (7)

1. An acoustically comfortable room with soundproofing equipment, comprising a workshop frame, load-bearing walls with fences in the form of floor and ceiling, which are lined with sound-absorbing structures, window and door openings, as well as piece sound absorbers containing a frame in which sound-absorbing material is located and installed above noisy equipment, which, in turn, is protected by an acoustic casing, characterized in that the floor is made on an elastic base and contains a mounting plate made of reinforced vibro empfiruyuschim concrete material, which is installed on the base floor slab with cavities through layers of vibration damping material and a waterproof material with a gap with respect to bearing walls industrial premises, said cavities are filled vibration damping material of the base plate, such as foamed polymer. 2. An acoustically comfortable room with soundproofing equipment according to claim 1, characterized in that the elastic floor base is made of a rigid porous vibration-absorbing material, for example elastomer, or polyurethane with a degree of porosity in the range of optimal values of 30 ÷ 45%. 3. An acoustically comfortable room with soundproofing equipment according to claim 1, characterized in that the elastic floor base is made of needle-punched mats of the type “Vibrosil” based on silica or aluminoborosilicate fiber. 4. An acoustically comfortable room with soundproofing equipment according to claim 1, characterized in that the elastic floor base is made of solid vibration damping materials, for example plastic compound. 5. An acoustically comfortable room with soundproofing equipment according to claim 1, characterized in that the elastic floor base is made of soundproofing boards based on glass staple fiber of the Shumostop type with a material density of 60 ÷ 80 kg / m ³ . 6. An acoustically comfortable room with soundproofing equipment according to claim 1, characterized in that the rigid walls of the acoustic casing on the equipment form a profile congruent to the equipment, equipped with noise mufflers for removing process units and removing heat. 7. An acoustically comfortable room with soundproofing equipment according to claim 1, characterized in that the rigid walls of the casing form a profile of removable, sliding or bonnet types, which is installed on the base with vibration dampers, for example, mats of the type KV-1 or KV-2, and as sound-absorbing material is used cermets with a degree of porosity that is in the range of optimal values of 30 ... 45%, or an element in the form of layer-by-layer and cross-winding from porous threads wound on an acoustically transparent frame c, for example, a wire frame, or an element made of a rigid porous sound-absorbing material, for example, metal foam or shell stone.

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