RU2471935C1 - Comfort structure of room - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: structure of a room comprises a frame of a room, window and door openings, acoustic barriers of shop surfaces and unit sound absorbers of conical and prismatic types above noisiest process equipment. Acoustic barriers comprise profiled and perforated walls, between which a layer of a sound-absorbing material is arranged. Elements of a sound-absorber of prismatic type above noisiest process equipment comprise a frame suspended by hooks, for instance, on cables or directly fixed to a rigid wall or a ceiling of a production room. The frame is arranged by its form in the form of two cubic surfaces, one of which is external, the outer one, is arranged as perforated, and the other one, the inner one, - acoustically transparent, besides, the sound-absorbing material wrapped by a meshy nylon fabric is arranged in the gap between frames. The relation of the ratio (H/W) of parameters of the production room to thickness HI of the acoustic barrier is in the optimal range of values 0.0007÷0.006, and the relation of the ratio (H/W) of the room height to its width to the ratio (H2/R) of thickness of the sound absorber element to its height of suspension is in the optimal range of values 0.27÷0.68. Elements of the sound absorber of conical type comprise a rigid conical frame with a round cover, tightly adjacent to the base of the cone as a result of a fastening spring, arranged inside the frame and connecting a metal cap, arranged at the cone top with a hook for suspension to the production room ceiling. On the inner conical surface of the frame there is a sound-absorbing element from mineral fibre in a wrapper from coarse fabric or sackcloth. The frame with the round cover have perforation in the form of holes of round, slot or rectangular shape and are made of metal.

EFFECT: invention makes it possible to increase efficiency of noise absorption due to expansion of the frequency range and secondary absorption of sound waves reflected from a sound absorber.

2 cl, 5 dwg

Description

The invention relates to industrial acoustics.

The closest technical solution to the technical nature and the achieved result is a sound-absorbing design according to the patent of the Russian Federation No. 2414565, class. E04B 1/74, dated 2/27/2009 [1], containing a building frame, window and doorways, openings for lighting fixtures, acoustic fencing of workshop surfaces and piece sound absorbers above the most noisy technological equipment.

The disadvantage of the prototype is the relatively low efficiency of sound attenuation due to the partial reflection of sound waves from the sound absorber.

EFFECT: increased noise absorption efficiency due to expansion of the frequency range.

This is achieved by the fact that in the sound-absorbing structures of the production room, containing the frame of the room, window and doorways, acoustic fencing of the workshop surfaces and piece sound absorbers of conical and prismatic types above the noisiest technological equipment, acoustic fencing contains profiled and perforated walls, between which a layer of sound-absorbing is placed material, and elements of a prismatic type sound absorber above the noisiest technological equipment with they hold a frame suspended by hooks, for example, on cables or directly attached to a rigid wall or ceiling of a production room, and the frame is made in the form of two cubic surfaces, one of which is perforated and the other is acoustically transparent, and sound-absorbing material wrapped in a mesh nylon fabric, located in the gap between the frames, and the ratio of the ratio (H / W) of the parameters of the production room to the thickness H1 of the acoustic fence le lives in the optimal range of values 0.0007 ÷ 0.006, and the ratio of the ratio (H / W) of the room height to its width to the ratio (H2 / R) of the thickness of the sound absorber element to its suspension height lies in the optimal range of 0.27 ÷ 0.68 and the conical type sound absorber elements consist of a rigid conical frame with a round cover that fits snugly to the base of the cone due to a fixing spring located inside the frame and connecting the metal cap located on the top of the cone with a hook for hanging from the production ceiling premises, and on the inner conical surface of the frame there is a sound-absorbing element of mineral fiber in a wrapper made of coarse fabric or burlap, and the frame with a round lid has perforations in the form of holes of round, slotted or rectangular shape and made of metal.

In Fig.1 shows a diagram of the room, Fig.2 is a design of a sound-absorbing acoustic enclosure of the room, Fig.3 is a design of a prismatic piece sound absorber, Fig.4 is a design of a conical piece sound absorber, Fig.5 is a diagram of a floating floor.

The comfortable design of the room (Fig. 1) contains a frame including walls and floor slabs (not shown in the drawing), window 2.8 and door 9 openings in the walls, niches 5 for accommodating lamps placed on the ceiling 4, as well as floor 1 on which the noisy technological equipment is located 11. The walls are made with acoustic fences of the surfaces 3, 10, 12 of the room. An acoustic fence (not shown in the drawing), located opposite the fence 12, is made of perforated gypsum sound-absorbing plates of the type “PPGZ” - this is a perforated sheet of drywall, on the back side of which a soundproof non-woven fabric of the “spunbond” type is glued. PPGZ sound-absorbing plates mounted on a frame or a standard suspension system are effective sound-absorbing structures of a resonant type used to adjust acoustics in rooms. Of significant importance for the low-frequency sound absorption is the value of the PPGZ slabs from a hard surface. The increase in sound-absorbing properties in a wider frequency range is ensured by the additional placement of SHUMANET-BM type plates in the inner space between the hard surface and the lining of PPGZ panels.

Technical, acoustic and operational characteristics:

Panel dimensions: Width: 595 mm. Length: 595 mm. Thickness: 12 mm.

Perforation Types:

Type A: hole 8 mm in 40 mm increments, perforation ratio 4%.

Type C: hole 12 mm in increments of 40 mm, perforation coefficient 7%.

Type D: holes 8 mm and 12 mm in increments of 40 mm, perforation coefficient 10%.

Surface density: 6.6 kg / m ² .

Above the noisy technological equipment 11, piece sound absorbers of conical type 6 and prismatic type 7 are placed.

Each of the acoustic fencing of the walls of the room (figure 2) contains a smooth 13 and perforated 14 walls, between which is placed a sound-absorbing material located in two layers, one of which, more rigid 15, is solid and shaped, and the other, soft 16, is made intermittent in the form of intermittent sound absorbers and is located in the focus of the sound-reflecting surfaces of the first layer 15. In this case, the continuous profiled layer 15 of sound-absorbing material is made of a material whose sound reflection coefficient is greater than ffitsient absorption. The intermittent sound absorber 16 located in the focus of the continuous profiled layer 15 is made in the form of bodies of revolution, for example a sphere, ellipsoid, cone, truncated cone, and is mounted on the perforated wall 14 using pins 17, one end of which is rigidly fixed to the perforated wall 14, and the other is made pointed and located in the body of intermittent sound absorbers 16.

The sound absorber element (Fig. 3) of a piece, prismatic type, consists of a rigid frame 18, suspended by hooks 20 on cables 19 to the ceiling 4 of the production room. The frame is made in the form of two cubic surfaces (as a special case of prismatic), one of which is the outer 18 is perforated, and the other inner 21 is acoustically transparent, and the sound-absorbing material 22, wrapped with a mesh nylon fabric, is located in the gap between the frames, which interconnected by resonant inserts 23 and 24 of different diameters of the holes 25 and 26, and the internal cavity is divided by a partition 27 into two resonant cavities 28 and 29, one of which can be filled with sound insulation by the hotel. In the resonant inserts 23 can be placed lamps 30 with power (not shown). The filling is carried out with a sound-absorbing non-combustible material (for example, vinipore, fiberglass) with a protective layer of fiberglass, preventing the sound absorber from falling out.

The conical type sound absorber element (Fig. 4) consists of a rigid conical frame 31 with a round cover 33, which fits snugly to the base of the cone due to the fixing spring 35 located inside the frame and connecting the metal cap 36 located on the top of the cone with a hook 37 for hanging from ceiling 4 production facilities. On the inner conical surface of the frame is a sound-absorbing element 34 of mineral fiber in a wrapper of coarse fabric or burlap. The frame 31 with a round cover 33 have perforations in the form of holes 32 of a round, slotted or rectangular shape and are made of metal (aluminum foil, sheet, brass) with a thickness of 0.4 ÷ 1.5 mm, and the diameter of the round through perforation is 1 mm, and perforation step - 3 mm. Slit or rectangular perforations are made with a size between the most extended faces, equal to 1 mm.

The design of the surface 1 of the premises (floor of the workshop) is made in the form of a floating floor (Fig. 5), which provides for additional sound insulation of the floors. This design is a layer 39 of soundproofing cushioning material “Penotherm NPP LE”, located on the floor slab 38, over which a cement-sand screed 41 is made through a metal mesh 40. A substrate 42 of the Porilex type is laid on the screed 41, then a laminate 43 with a plinth 44.

CJSC Uralplastic, being the largest producer of foamed polymers in Russia, specially developed the vibration damping material PENOTERM NPP LE for noise insulation of floors. Penotherm NPP LE is a roll vibrodamping material with a closed-cell cellular structure, made of polypropylene by extrusion, with the addition of a blowing agent, flame retardants, stabilizing, plasticizing and other technological additives that provide an optimal dynamic modulus of elasticity ED = 0.66 MPa and preserve all the inherent characteristics in throughout the life of the facility. The elastic properties of the skeleton of the foam material of NPP LE, the chemical resistance and the presence of air enclosed in its pores, dampen shock energy and vibration, which helps to reduce shock and air noise. The structure of polypropylene is able to inhibit the effects of aggressive environments mechanical stress and the aging process.

The main physical and mechanical properties of the foam material of NPP LE:

Dynamic modulus of elasticity at a load of 2000 N / sq.m - 0.66 MPa,

Relative compression at a load of 2000 N / sq.m - 11%,

Impact noise reduction index in the construction of "floating floors" - 20 ÷ 22 dB,

Density - 40 kg / cubic meter,

The thickness of the material supplied by Uralplastic CJSC is 6, 8 and 10 mm.

On the screed 41, a substrate 42 of the “Shumoff Mix F” type can be laid - this is a vibration-absorbing material based on special grade bitumen, consisting of 8 layers, which has high mass and damping rates. This material structure allows you to most effectively absorb noise from vibration of the panel on which it is mounted. The adhesive mounting layer (KMC) is made in the form of a rubber-based mastic layer, which outperforms the ordinary adhesive layer due to properties such as: - it is less critical to the cleanliness of the treated surface. Bituminous layers withstand sub-zero temperatures and do not become brittle. Between the layers of bitumen there is a reinforcing layer, which allows the material not to collapse, even in the case of a break in one of the bitumen layers. The properties listed above allow you to work without a heat gun at temperatures of 15 ° C, which is impossible for analogues. Due to its mass, thickness and multi-layering, this material can effectively dampen noise on plastic and metal structures up to 3 mm thick. Such structures include metal entrance doors and stairs. Available in the form of sheets of size 370 × 270.

Table 1 "The main characteristics of the materials Mix" Name of indicator Mix Mix f Thickness mm 3 four Weight kg / m ² 3.8 5,6 Noise reduction * 30.6% 58.0% Bond strength 5 N / cm

Equipment 11 can be installed on laminate 43 using a polyurethane elastomer for vibration isolation - SYLOMER SR materials of the Austrian company Getzner Werkstoffe GmbH, which are microporous polyurethane elastomers with a mixed cellular structure and are specially designed to solve vibration isolation problems. Material properties make it possible to realize full-plane, tape or point vibration-isolating supports, which facilitates the design process. A wide range of standard grades of material allows for the optimal selection of the type of material depending on the load and the area of the supports. SYLOMER SR material is used as an elastic element for vibration isolation of engineering equipment, building foundations, rail tracks, in the construction of floating floors, etc. The characteristics of the vibration mounts are selected in accordance with the conditions of use, type of construction and construction method.

Distinctive features: not subject to hydrolysis, as well as to the effects of diluted alkalis, acids, solvents and oils; withstands long-term cyclic loads (more than 2 million loading cycles); perceives significant overload; when exposed to static load, the material does not lose its properties for 30 years or more.

Dimensions:

Thickness: 12.5 mm and 25 mm. Roll length: 5 m. Roll width: 1.5 m. Physical characteristics:

Temperature range: -30 to + 70 ° C. Peak temperature (short term): + 120 ° C.

A comfortable design of the room works as follows.

Sound energy from the equipment 11 located in the room, passing through the perforated wall 14 of the acoustic fences 3, 4, 10, 12, enters the layers of soft sound-absorbing material 16 (for example, made of basalt or glass fiber), which is intermittent and located under the sound-reflecting the surfaces of the first layer 15. The transition of sound energy into heat (dissipation, energy dissipation) occurs in the pores of a sound absorber, which are a model of Helmholtz resonators, where energy losses occur and frictionally with the driving frequency of the oscillating mass of air located in the neck of the resonator neck wall itself, has the form of branched networks pore 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.

Moreover, the ratio of the ratio (H / W) of the parameters of the production room to the thickness H1 of the acoustic fence lies in the optimal range of 0.0007 ÷ 0.006, and the ratio of the ratio (H / W) of the height of the room to its width to the ratio (H2 / R) of the thickness of the element sound absorber to its suspension height lies in the optimal range of values of 0.27 ÷ 0.68.

Sound waves also propagating in the production room interact with 22 cavities filled with sound absorber. Sound absorption at low and medium frequencies occurs due to the acoustic effect constructed on the principle of Helmholtz resonators formed by cavities 28 and 29. Different volumes of resonant cavities serve to suppress sound vibrations in the required sound frequency range, as a rule, large volumes to suppress noise in the low-frequency range , and small - in the medium and high frequencies. The interaction of sound waves with active cavities filled with a non-combustible sound absorber 22 leads to sound attenuation in the high-frequency range, and due to the presence of cavities 29, the sound absorption surface increases, and, as a result, the sound absorption coefficient increases.

The design of the surface 1 of the room (floor of the workshop), which is made in the form of a floating floor, provides additional noise insulation of floors, and serves to improve the insulation of air and impact noise of structures of floors.

An advantage of the invention is its versatility of application for various production facilities having a wide variety of noise characteristics. At the same time, it should be noted the relative ease of setting up a piece of sound absorber for the required frequency range of noise reduction and its economically feasible efficiency (meaning reducing noise to sanitary standards). In addition, the implementation of the sound absorber of non-combustible materials makes the design fireproof.

The technical solution proposed by the authors is an effective means to combat noise in the production halls of various sectors of the national economy.

Claims (2)

1. A comfortable design of the room, containing the frame of the room, window and door openings, acoustic fencing of the workshop surfaces and piece sound absorbers of conical and prismatic types above the noisiest technological equipment, characterized in that the acoustic fencing contains profiled and perforated walls, between which a layer of sound-absorbing material is placed moreover, one of the walls is made smooth, and the sound-absorbing material is arranged in two layers, one of which, more rigid, is made with flat and profiled, and the other soft, made intermittently and located under the surfaces of the first layer, while the sound-absorbing devices of the production room contain a frame, window, doorways, openings for luminaires and acoustic fences containing smooth and perforated walls, between which is sound-absorbing material located in two layers, one of which is more rigid, made solid and profiled, and the other is soft, made intermittent in the form of intermittent sound absorption It is located in the focus of the sound-reflecting surfaces of the first layer, the continuous profiled layer of sound-absorbing material is made of a material whose sound reflection coefficient is greater than the sound absorption coefficient, and the intermittent sound absorber located in the focus of the solid profiled layer is made in the form of bodies of revolution, for example, a sphere, ellipsoid, cone, truncated cone, and mounted on a perforated wall using pins, one end of which is rigidly fixed to the perforated wall, and the other it is pointed and located in the body of intermittent sound absorbers, and the elements of a prismatic type sound absorber above the noisiest technological equipment contain a frame suspended by hooks, for example, on cables or directly attached to a rigid wall or ceiling of a production room, and the frame is made in the form of two cubic surfaces, one of which, the outer one, is perforated, and the other, the inner one, is acoustically transparent, the sound-absorbing material wrapped in a set with a nylon cloth, located in the gap between the frames, which are interconnected by resonant inserts and different hole diameters, and the inner cavity is divided by a partition into two resonant cavities, one of which can be filled with a sound absorber, and luminaires with power supply can be placed in the resonant inserts and the filling is made by sound-absorbing non-combustible material, for example, vinipore, fiberglass, with a protective layer of fiberglass, preventing the loss of sound absorption Itel, and the elements of the conical type sound absorber consist of a rigid conical frame with a round cover that fits snugly to the base of the cone due to the fixing spring located inside the frame and connecting the metal cap located on the top of the cone with a hook for hanging from the ceiling of the production room, and on the inside the conical surface of the frame is a sound-absorbing element of mineral fiber in a wrapper of coarse fabric or burlap, and the frame with a round lid have perforation in the form of holes of round, crevice or rectangular shape and made of metal - aluminum foil, tin, brass, with a thickness of 0.4 ÷ 1.5 mm, and the diameter of the round through perforation is 1 mm, and the perforation step is 3 mm, with a crevice or a rectangular shape of the perforation is made with a size between the longest edges equal to 1 mm, and the floor structure of the room is made in the form of a floating floor, which provides additional sound insulation of floors, and is a layer of sound-proof laying material ala "LE penoterm HPP", located at the plate covering, which is formed on top of the cement-sand screed through a metal mesh, and a screed laid substrate of a material such as "porileks", then a laminate with a plinth. 2. The comfortable design of the room according to claim 1, characterized in that the equipment is installed on the laminate of the floating floor by means of a polyurethane elastomer for vibration isolation - material SYLOMER SR of the Austrian company Getzner Werkstoffe GmbH, which is a microporous polyurethane elastomer with a mixed cellular structure.

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