RU2480561C1 - Acoustic structure of workshop - Google Patents

Abstract

FIELD: construction.SUBSTANCE: acoustic structure of a workshop comprises a frame, bearing walls with barriers in the form of a floor and a ceiling, which are tiled with sound-absorbing structures, window and door openings, and also piece sound absorbers, comprising a frame, where a sound-absorbing material is arranged, and installed above noisy equipment. The floor is arranged on an elastic base and comprises a fixed plate made of concrete reinforced with a vibration-damping material, which is installed on a base plate of a floor-to-floor slab with cavities via layers of the vibration-damping material and hydraulic insulation material with a gap relative to bearing walls of a production room. Piece sound absorbers are made in the form of an element of a noise muffler, comprising a body with a flap cover filled with a sound-absorbing material placed into a protective shell. Body walls are formed with a sound-absorbing structure made in the form of cylindrical perforated coaxial shells - outer and inner ones, between which a sound absorber is arranged, made at least of one profiled porous sheet. The sheet profile in the section may be triangular, rectangular, trapezoidal, in the form of circular arcs, sinusoidal. The sound-absorbing material is represented by boards of mineral wool on basalt basis, or mineral wool, or basalt wool, or glass wool. The sound-absorbing element along its entire surface is lined with an acoustically transparent material. The sound-absorbing material of the sound absorber in the sound-absorbing structure of the body is a porous noise-attenuating material.EFFECT: increased efficiency of sound-suppressing.2 cl, 6 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 the efficiency of noise reduction.

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 a frame in which 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, a foamed polymer.

Figure 1 shows a General view of the acoustic structure of the workshop, figure 2 - floor structure on an elastic base, figure 3 - the design of the suspended ceiling, figure 4 - element muffler, figure 5 - diagram of a sound-absorbing enclosing structure , Fig.6 is a profile projection of Fig.5.

The acoustic design of the workshop (Fig. 1) comprises a workshop framework (not shown in the drawing), window 9 and doorways 10, bearing walls 1, 2, 3, 4 with fences 5, 6, floor 6 and suspended ceiling 5 (Fig. 3 ), and the walls are lined with sound-absorbing structures (Figs. 5 and 6), and piece sound absorbers 7 and 8 (Fig. 4) contain a frame in which sound-absorbing material is located and they are installed above the noisy equipment 11. The floor structure on an elastic base (Fig. 2) contains a mounting plate 12 made of concrete reinforced with vibration damping material, cat The wet one is installed on the base plate 15 of the floor with cavities 16 through the layers of vibration damping material 14 and waterproofing material 13 with a gap 17 relative to the bearing walls 1, 2, 3, 4 of the production room. 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 the 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 in the drawing), for example, fiberglass type EZ - 100 or polymer type "Poviden."

The ceiling 5 is made of acoustic suspended (figure 3) and consists of a rigid frame 18, made in the form of a rectangular parallelepiped with the dimensions of the parties in the plan a × b, the ratio of which lies in the optimal range of values a: b = 1: 1 ... 2: 1, suspended from the ceiling of an industrial building by means of suspensions 21 fixed to a rod 19, rigidly connected by means of brackets 20 to a frame 18. The frame is fixed to the ceiling using dowels (not shown). A perforated sheet 24 is attached to the frame, on which a layer of sound-absorbing material 22 is located through the layer of transparent acoustic material 23, and fixtures 26 are installed in the frame. When installing an acoustic ceiling, the optimum size ratios must be observed: d - from the point of suspension of the frame to any of its sides and c is the thickness of the layer of sound-absorbing material, and the ratio of these sizes should be in the optimal range of values: c: d = 0.1 ... 0.5. The perforated sheet 24 has the following perforation parameters: the diameter of the holes 25-3 ÷ 7 mm, the percentage of perforation 10% ÷ 15%, and the shape of the holes can be made in the form of holes of a round, triangular, square, rectangular or diamond shape (shown in the drawing holes). In the case of non-circular holes, the maximum diameter of a circle inscribed in a polygon should be considered as a conditional diameter.

The piece silencer element (figure 4) consists of a housing 27 with a hinged lid 30, filled with sound-absorbing material 28, placed in a protective shell 29.

The walls of the housing 27 of each piece of sound absorber are formed by a sound-absorbing structure (FIGS. 5 and 6) made in the form of cylindrical perforated coaxial shells - outer 31 and inner 32, between which there is a sound absorber 33 made of at least one profiled porous sheet, and the profile of the sheet in the section can be triangular, rectangular, trapezoidal, in the form of circular arcs, sinusoidal. The perforated coaxial shells 31 and 32 of the housing may also have a cross section in the form of a triangle, a polyhedron, an ellipse, and any combination of these figures.

As sound absorbing material 28 or 33, 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 moreover, the sound-absorbing element over its entire surface is lined with an acoustically transparent material (not shown in the drawing), for example, fiberglass type EZ-100 or polymer type "Poviden."

As the sound-absorbing material of the sound absorber 33, a porous sound-absorbing material, for example, foam aluminum or cermet, or metal foam, or in the form of pressed crumbs from solid vibration-damping materials, such as elastomer, polyurethane or plastic compound such as Agate, Anti-Vibrate, Shvim, can also be used. moreover, the size of the fractions of the crumbs lies in the optimal range of values: 0.3 ... 2.5 mm (not shown in the drawing).

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 porosity degree in the range of optimal values of 30–45%. As a sound-absorbing material, a material in the form of crumbs of solid vibration-damping materials, for example, elastomer, or polyurethane, or plastic compound can be used, and 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 design of the workshop is 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 a frame in which sound-absorbing material is located, and which are installed above noisy equipment 11. The transition of sound energy into heat (dissipation, energy dissipation) occurs in the pores of the sound absorber, which are a model of Helmholtz resonators, where and energies occur due to friction oscillating with the frequency of excitation of the mass of air located in the neck of the resonator against the walls of the neck 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, of the EZ-100 type, is located between the sound absorber and the perforated wall.

Suspension of the suspended acoustic ceiling is carried out on the suspensions 21, which are attached to the ceiling using dowels, and the other end is fixed to the frame 18 through the rod 19 and the brackets 20.

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 as: Vibrosil needle-punched mats 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 .

Claims (2)

1. The acoustic structure of the workshop, comprising 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 a frame in which sound-absorbing material is located and installed above noisy equipment, characterized in that 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 floors with cavities through layers of vibration-damping material and waterproofing material with a gap relative to the bearing walls of the production room, and piece sound absorbers are made in the form of an element of a silencer, consisting of a body with a hinged lid filled with sound-absorbing material placed in a protective shell, while the walls of the body are formed by sound-absorbing design made in the form of cylindrical perforated coaxial shells - external and internal, between which the sound is located a desiccant made of at least one profiled porous sheet, wherein the sectional profile of the sheet can be triangular, rectangular, trapezoidal in the form of circular arcs, sinusoidal, and basaltic mineral wool or mineral wool slabs are used as sound-absorbing material. cotton wool, or basalt cotton wool, or glass wool, and the sound-absorbing element over its entire surface is lined with an acoustically transparent material, such as fiberglass type EZ-100 or polymer type "P “visible”, and as the sound-absorbing material of the sound absorber of the sound-absorbing structure of the body, a porous sound-absorbing material is used, for example, foam aluminum, or cermets, or metal foam, or a material in the form of pressed crumbs from solid vibration-damping materials, for example elastomer, polyurethane. 2. The acoustic design of the workshop according to claim 1, characterized in that the ceiling is acoustic suspended, consisting of a rigid frame suspended from the ceiling of a production building, with a sound-absorbing structure located inside the frame made of sound-absorbing material wrapped in an acoustically transparent material, and perforated is attached to the frame a sheet, and the frame is made in the form of a rectangular parallelepiped with the dimensions of the sides in the plan a × b, the ratio of which lies in the optimal range of values a: b = 1: 1 ... 2: 1, and t kzhe optimum aspect ratio c: d = 0,1 ... 0,5; where d is the distance from the suspension point of the frame to any of its sides; c is the thickness of the layer of sound-absorbing material, while the frame elements are fastened together by brackets rigidly connected to the bar, to which the suspensions are attached, and the perforated sheet has the following perforation parameters: perforation diameter - 3 ... 7 mm, perforation percentage 10% ... 15% moreover, fixtures are installed in the frame.

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