RU2151839C1 - Roadside noise shield (versions) - Google Patents

Abstract

FIELD: civil engineering and road building; protection against noise and sound waves. SUBSTANCE: wt.% invention relates to facilities designed for providing normal acoustic conditions. Noise shield has flat chamber for mixing active components of high-frequency spectrum of noise flow formed between plates made of materials featuring differentiated noise absorbing properties. Chamber communicates through cross holes with resonant spaces in hollow separators installed over inner contour of rectangular frame. Face inclined plates are provided with shortened reversely tilted shanks whose edges are pointed to adjacent tilted plates. Face tilted plates, rectangular frame, hollow separator and rear flat wall are made of basalt glass plastic. In other design version, rear flat wall can made of foam aluminium or foam concrete. Plates made of materials with differentiated noise absorbing properties can be manufactured of glass-or basalt-fiber material, or foam aluminium, or foam concrete or their combinations with reinforcing glass-or basalt-fiber materials. EFFECT: improved efficiency of shield, simplified design, reduced cost of manufacture. 12 cl, 6 dwg

Description

 The invention relates to a device for protection from exposure to noise, sound waves and their suppression and can be used in building structures to ensure normal acoustic conditions, in particular in protective screens for roadside sound absorption.

 There are increased requirements for roadside noise absorption shields in terms of the effectiveness of their protection against roadside noise, sound waves, especially in residential areas, in places of mass development by residential complexes, open areas, along highways, places of accumulation of all types of ground transportation and infrastructure linking, taking into account ensuring living conditions, livelihoods, work, reducing noise and sounds of running moving vehicles, their capture, suppression and absorption.

 As such means of protection in roadside infrastructure, protective screens have been used.

 Known protective shield for roadside sound absorption, containing a rectangular frame, built-in parallel plates of materials with differentiated sound absorption properties, a flat rear wall and front, parallel, inclined plates with visors, slotted traps between them, respectively, for reflection and dispersion mounted on the frame low-frequency noise stream, separation and capture in the active phase of a high-frequency noise stream, the primary suppression of separate noise of flow in the gap traps and aimed at feeding plate materials with differentiated properties of sound absorption (EPO application N 0368135 A1, IPC E 01 F 8/00, 1991).

 The design of the protective screen is such that not the entire spectrum of the noise stream and sound waves is suppressed and their energy is absorbed. Especially in high frequencies.

 Known panel for the absorption of acoustic energy in the low, medium and high frequencies in the range of 400 - 3000 Hz, consisting of a plate of semi-rigid foam with open or communicating pores and a layer of bound fibers or soft porous material (RF application N 94028651/28 from 05.08.94 G 10 K 11/16, 1996, US patent N 5493081, NKI 181-286, 1996).

 Compared with foams, sound-absorbing structures in the form of flat mats containing a shell made of fiberglass and a filler of superthin basalt fibers or fibers of silymanganese slag (application of the Russian Federation N 94030323/33 of 08/17/94 IPC E 04 B 1/82, 1996 have found application. g.; aut. St. USSR N 1693214, IPC E 04 B 1/74, 1991; aut. St. USSR N 1788175, IPC E 04 B 1/82, 1993; aut. St. USSR N 1294941 , IPC E 04 B 1/84, 1987; auth. St. USSR N 1585476, IPC E 04 B 1/84, 1990).

 Sound-proof and acoustic panels also use profile elements or grilles (ed. St. USSR N 1813150, IPC E 04 B 1/82, 1993; ed. St. USSR N 1689548, IPC E 04 B 1/82, 1991; ed. St. USSR N 975945, IPC E 04 B 1/84, 1982; ed. St. USSR N 1506039, IPC E 04 B 1/84, 1984; ed. St. USSR N 708398, IPC G 10 K 11/00, 1980).

 To increase the sound absorption coefficient during normal incidence of sound waves, the sound-absorbing material is made in the form of bundles of fibers that do not intersect within the nodes of communication (ed. St. USSR N 699544, IPC G 10 K 11/00, 1979).

 Other shields (US Pat. No. 4,274,506, NKI 181-210, 1981; U.S. Pat. No. 5,268,540, NKI 181-210, 1993; U.S. Pat. No. 5,422,446, NKI 181-293, 1995) used horizontal upper and lower vertical rows of reflective plates , mesh or corrugated sheet materials, respectively placed either on the front side of the screen or in the screen itself. However, even the screens listed above do not solve the problems of effective suppression and absorption of noise flows and sound waves.

 The closest analogue, selected as a prototype, adopted a protective screen according to the application EPO N 0368135 A1.

 The main objective is to create a screen with protective properties for roadside noise absorption at the level of the invention, which would ensure reflection and efficient dispersion of the low-frequency noise stream and sound waves, there is an effective separation and primary effective suppression of the noise stream in the active phase, and secondary effective suppression of the noise stream and sounds passing through slabs of materials with differentiated sound absorption properties.

 The technical result from the use of the invention is to increase the effectiveness of the protective screen for roadside sound absorption, simplifying the design, technology and reducing production costs for its manufacture.

 The main task is solved and the technical result is achieved by changing the design of the protective shield, introducing new elements and improving the front inclined plates, slotted traps between them, introducing a flat chamber with resonators along its contour, choosing the bulk density of plate materials, changing the structure of the materials of inclined plates, rectangular frame, volume of plates and material of the rear flat wall.

 In the first embodiment, a protective screen for roadside sound absorption, containing a rectangular frame, parallel-mounted plates of materials with differentiated sound absorption properties, a flat rear wall and front, parallel, inclined plates with visors, slotted traps between them, respectively, to reflect and dispersion of the low-frequency noise stream, the primary suppression of the divided noise stream with active phases in slot traps and its directional feed to the plates of materials with differentiated properties of sound absorption, equipped with hollow separators of plates of materials with differentiated properties of sound absorption, made in the form of linear segments of rods of a rectangular or circular tubular profile with resonant cavities installed along the inner contour of a rectangular frame, with the formation of a flat mixing chamber between materials components of the high-frequency spectrum of the noise stream, in the walls of the tubular linear segments of the rods divided On the side of the flat chamber and in the lower part of the rectangular frame, there are transverse through holes located along the plates, and the visors of the inclined plates are equipped with shortened shanks made with reverse inclination, with the edges directed to adjacent inclined plates, and the front inclined plates, the rear flat wall, flat separators of material plates and a rectangular frame are made of glass-basalt plastic, and material plates are made of glass or basalt-fiber material and / or foam, or ne obetona or in combination with reinforcing glass or basalt fiber their sequential arrangement from the first inclined plate face plates of foam, then the plates from the foam aluminum and / or fibrous material of said plates.

 In the second embodiment, a protective screen for roadside sound absorption, comprising a rectangular frame, parallel-mounted slabs of materials with differentiated sound absorption properties, a flat rear wall and front, parallel, inclined plates with visors, slotted traps between them, respectively, to reflect and dispersion of the low-frequency noise stream, separation and capture in the active phase of the high-frequency noise stream, the primary suppression is divided The noise flow in slot traps and its directed feeding onto plates of materials with differentiated noise absorption properties is equipped with hollow separators of plates of materials with differentiated noise absorption properties made in the form of linear segments of rods of a rectangular or circular tubular profile with resonant cavities installed along the inner contour of a rectangular frame, with the formation between the plates of materials of a flat chamber mixing the active components of the high-frequency spectrum of the noise stream, the walls of the tubular linear segments of the rods of the separators of the plates of materials from the side of the flat chamber and at the bottom of the rectangular frame are made transverse through holes located along the plates of materials, in the visors of the inclined plates are equipped with shortened shanks made with a reverse inclination, the edges directed to adjacent inclined plates, and the front inclined plates, plate dividers and a rectangular frame are made of glass or basalt plastic, the rear flat wall is made of foam aluminum or foam concrete on, and slabs of materials - of glass or basalt fiber material and / or foam, or foam concrete, or in combination with glass or basalt fibers reinforcing them, in a sequential arrangement from the front inclined plates, first foam concrete plates, then foam aluminum and / or plates specified fibrous material.

In the protective screen of the first and second options in plates of materials with differentiated noise absorption properties from the side of the inclined plates, transverse noise flow dividers intersecting with the front inclined plates are made in the form of linear segments of rods made of glass or basalt plastic. Plates of materials with differentiated noise absorption properties and a flat chamber for mixing the active components of the noise stream are made with a ratio of their volumes from 5: 1 to 1: 1. Plates of materials with differentiated noise absorption properties can be made of whole-cut and / or layers with frontal areas equal to the opening area of a rectangular frame within its inner contour, from glass or basalt fibers with a diameter of 2 - 20 microns and a length of 10 - 70 mm, discretely located in slabs with a bulk density of 40 - 160 kg / m ³ , or foam aluminum or foam concrete with a bulk density of 50 - 200 kg / m ³ or in combination with glass or basalt reinforcing them with mesh sizes of 5 x 5 mm to 20 x 20 mm or discretely positioned teklo- or basalt fiber diameter of 2 - 20 microns and a length of 10 - 70 mm. The front inclined plates and the rectangular frame, respectively, can be made of wave-like intersecting fibers.

The distinctive features of the protective screen for roadside sound absorption of the first option are the following features:
- supplying the screen with hollow separators of plates of materials with differentiated properties of sound absorption,
- the implementation of the hollow separators in the form of linear segments of the rods of a tubular rectangular or round profile with resonant cavities,
- installation of hollow plate separators along the inner contour of a rectangular frame with the formation between the plates of a flat chamber mixing the active components of the high-frequency spectrum of the noise stream,
- the execution in the walls of the tubular linear segments of the rods of the separator plates on the side of the flat chamber and in the lower part of the rectangular frame of the transverse through holes located along the plates,
- supplying the visors of the front inclined plates with shortened shanks, made with a reverse slope, lumps directed to adjacent inclined plates,
- the implementation of the front inclined plates, the rear flat wall, the hollow separators of the plates and the rectangular frame of glass or basalt plastic,
- the implementation of plates of materials from glass or basalt fibers and / or foam, or foam concrete, or in combination with glass or basalt fibers reinforcing them,
- a sequential arrangement from the front inclined plates of first slabs of foam concrete, then slabs of foam and / or slabs of the specified fibrous material.

 These distinctive features of the first variant of the protective screen for roadside sound absorption are the distinctive features of the second variant of the protective screen except that the rear flat wall of the screen instead of glass or basalt plastic is made of foam aluminum or foam concrete.

Additional distinctive features of the protective screen for roadside sound absorption of the first and second options are the following features:
- installation in plates of materials with differentiated properties of sound absorption from the side of inclined plates transverse, intersecting with inclined plates of noise separators,
- the implementation of the transverse dividers of the noise stream in the form of linear segments of the rods of glass or basalt plastic,
- the implementation of plates of materials with differentiated properties of noise absorption and a flat chamber for mixing the active components of the high-frequency spectrum of the noise stream with a ratio of their volumes from 5: 1 to 1: 1,
the implementation of slabs of materials with differentiated noise absorption properties solid and / or from layers with frontal areas equal to the opening area of a rectangular frame within its inner contour,
- the implementation of plates of materials from glass-basalt fibers with a diameter of 2 - 20 μm and a length of 10 - 70 mm, discretely located in plates with a bulk density of 40 - 160 kg / m ³ ,
- the implementation of slabs of materials from foam aluminum or foam concrete with a bulk density of 50 - 200 kg / m ³ or in combination with glass or basalt reinforcing them with mesh sizes from 5 x 5 to 20 x 20 mm or discrete glass or basalt fibers with a diameter of 2 - 20 microns and a length of 10 - 70 mm,
- the implementation of the front plates and a rectangular frame of wave-like intersecting fibers,
- the implementation of linear segments of the separators of plates made of plastic with wave-like intersecting fibers.

These distinctive features are significant, aimed at fulfilling the task and achieving a new technical result. The introduction of separators of slabs of materials is necessary for the formation of a flat chamber for mixing the active components of the noise stream with the possibility of resonance with the cavities of the tubular elements through transverse through holes made in their walls, located along the plates, when the noise flows through them. Making transverse through holes in the base of the rectangular frame, also located along the plates of materials, helps to suppress the noise flow around the plates. In addition, the transverse through holes in the base of the rectangular frame provide drainage of moisture from the slabs of materials and the resulting condensate as a result of precipitation and changes in the temperature and humidity conditions inside the protective shield, taking into account changes in external temperature conditions. Providing the visors of the front inclined plates with shorter shanks made with a reverse inclination compared to the inclined plates themselves, with the edges directed to adjacent inclined plates, it is possible to disrupt the noise flow with effective reflection in the direction of the slotted traps under the visors without flowing out from under them from the screen, with subsequent reflection from the inner surfaces of the inclined plates in the direction of the plates of materials with differentiated properties of sound absorption. Plates made of glass or basalt fiber material, or foam aluminum, or foam concrete, or with fibers reinforcing them or fiber or basalt networks effectively suppress and dampen noise flows, this is greatly facilitated by the flat chamber communicated by the openings in the separators of the plates with their cavities, due to mixing in it and resonating the active components of the high-frequency spectrum of the noise stream. Outside the flat chamber, the residual components of the noise stream are absorbed by the next slab of absorption material and the rear wall of the shield. The transverse noise flow dividers located behind the oblique face plates facilitate separation of the noise stream after the oblique face plates pass through it in the perpendicular direction when materials with differentiated noise absorption properties enter the plates. Overlapping the flat chamber of mixing the active components of the noise stream spectrum over the frontal area with plates of appropriate sizes eliminates the leakage of the active components of the high-frequency spectrum of the noise stream outside the flat chamber. The volume ratio of slabs of materials and a flat chamber in the range from 5: 1 to 1: 1 allows you to differentiate the protective screens in different directions for more effective noise reduction and noise absorption in different sections of highways. The wave-like crossing of glass or basalt fibers in the plastic of the front inclined plates, the back flat wall, the separators of the plates of materials increases the noise absorption properties of the protective screen. The choice of slabs of materials with a bulk density of 40 - 160 kg / m ³ from glass-basalt fibers or foam aluminum, or foam concrete, or these plates with the inclusion of fiber fractions in them to obtain a bulk density of 50 - 200 kg / m ³ allows you to choose the appropriate thickness of the protective screen for highways with varying degrees of noise, it is most economical to produce appropriate shields.

 These distinctive essential features are new, since their use in the prior art, analogues and prototype was not found, which allows us to characterize the technical solution in the proposed set of essential features in accordance with the criterion of "novelty."

 A single set of new essential features with common known essential features allows us to solve the problem and achieve a new technical result, which characterizes the proposed technical solution by significant differences from the prior art, analogues and prototype. The new technical solution is the result of scientific research and experimental work, creative contribution, without using any standard solutions, instructions or recommendations in the given field of technology, in combination of essential features, originality and non-obviousness of fulfillment meets the criterion of "inventive step".

The invention is illustrated by drawings and the accompanying brief description:
In FIG. 1 shows a general view of a roadside noise absorption shield; FIG. 2 is a cross-sectional view thereof showing the design features of the screen; FIG. 3 and FIG. 4 shows the arrangement of the transverse through holes in the transverse dividers from the side of the flat mixing chamber of the active components of the high-frequency spectrum of the noise stream and at the base of the rectangular frame of the screen, FIG. 5 is a diagram of the arrangement of glass or basalt fibers in oblique front plates, a rectangular frame, a hollow separator of material plates, FIG. 6 is a diagram for suppressing and absorbing a noise stream by a shield.

The protective screen for roadside sound absorption contains a rectangular frame 1, plates of materials 2, 3 with differentiated noise absorption properties embedded in it, rear flat wall 4 and front plates mounted on the frame 1 by means of fasteners 5, parallel, inclined plates 6 with visors 7, slotted traps 8 in between. The screen is equipped with hollow dividers of 9 plates of materials 2, 3 with differentiated noise absorption properties, made in the form of segments 10 of linear rods of a tubular rectangular or round profile with resonator cavities 11 installed along the inner contour 12 of a rectangular frame 1 with the formation of a flat chamber between the materials 2, 3 13 mixing the active components of the high-frequency spectrum of the noise stream. In the walls 14 of the tubular linear segments 10 of the dividers 9 there are transverse through holes 15, in the lower part 16 of the rectangular frame 1 there are transverse through holes 17. A flat chamber 13 for mixing the active components of the high-frequency spectrum of the noise stream through the holes 15 is in communication with the resonant cavities 11 of the tubular linear segments 10 separators 9. Through holes 17 in the lower part 16 of the rectangular frame 1 and holes 15 of the tubular linear segments 10 of the dividers 9 are located along the plates of materials 2, 3. Through holes The holes 17 in the lower part 16 of the rectangular frame 1 are communicated by the cavities occupied by the plates of materials 2, 3, with the medium under the protective screen, the protective screens are installed and fixed in the guide grooves of 18 racks 19 along the transport routes, at the places of transport interchanges, etc. the screen is essentially an original panel design, all elements of which are made of a combination and various composition of composite materials based on fibers and a polymer binder, used in rectangular frame 1, front inclined 6 plates and hollow dividers 9, plates of materials 2, 3 made of foam concrete, or foam aluminum, and / or using glass or basalt fibers in them, or plates of glass or fiber material that implement the main function of suppressing and absorbing noise energy when hit by a protective shield. The rectangular frame 1 is made of rectilinear segments of either a channel or box profile fastened at the corners by means of inserts 20 made of glass or basalt plastic. The front inclined plates 6 are also made of glass-basalt plastic. Along the inner contour of the rectangular frame 1, hollow dividers 9 made of glass or basalt plastic are fixed to the glue or screws. Glass or basalt fiber in the plastic of the frame 1, inclined plates 6 and hollow dividers 9, in order to efficiently suppress and absorb the energy of the noise stream, can be made wave-wise crossed among themselves. Plates of materials 2, 3 with differentiated noise absorption properties are installed on different sides of the hollow separator 9, between them a flat chamber 13 for mixing the active components of the high-frequency spectrum of the noise stream is formed. Plates of materials 2, 3 can be made one-piece or consist of layers. The most effective ratios of volumes of slabs of materials 2, 3 and flat chamber 9 are in the range from 5: 1 to 1: 1. With a fractional volume of materials of plates 2, 3 above 5.0, the noise absorption efficiency remains at the same level, with a fractional volume of materials of plates 2, 3 less than 1.0, the noise absorption efficiency of the screen decreases. Behind the plate of material 3, a rear flat wall 4 is installed, which is a reflector of the noise stream in the screen and at the same time an absorber of the rest of the active components of the spectrum of the noise stream. The rear flat wall 4 can be made of glass or basalt plastic (in the first embodiment) or foam, or foam concrete (in the second version of the screen). Plates of materials 2, 3 can be made of glass or basalt fiber material or foam, or foam concrete, or from the same foams reinforced with glass or basalt fibers. In the plates of materials 2 from the side of the front inclined plates 6 can be installed crosswise with the front inclined plates 6 transverse dividers 21 of the noise stream, made in the form of linear segments of the rods of glass or basalt plastic. Plates of materials 2,3 are made whole-piece and / or can be made of layers with frontal areas equal to the opening area of rectangular frame 1 with overlapping hollow dividers 9. Material plates 2, 3 of fiberglass or basalt fiber materials have a bulk density of 40-160 kg / m ³ , from foam aluminum or foam concrete - 50 - 200 kg / m ³ . Plates of materials 2, 3 made of foam aluminum or foam concrete can be reinforced with glass-basalt fibers with a diameter of 2 - 20 microns, a length of 10 - 70 mm or glass or basalt networks with mesh sizes from 5 x 5 mm to 20 x 20 mm. For the convenience of production and transportation, protective screens can be made in the form of flat sections mounted on top of each other.

 The functioning of the protective screen of the proposed design is as follows.

 The protective screen from the side of the highway of traffic is affected by the noise flow generated by working engines, gas exhausts, noise from the interaction of the wheels of the vehicle with the coating of the highway, its profile, relief, vehicle vibrations and fluctuations in the air flow around the moving vehicle. Part of the noise stream is reflected by the inclined plates 6 and scattered when interacting with a continuous stream of noise, the rest of the noise stream, the main part, when reflected from the inclined plates 6, is captured by slot-type traps 8, partially suppressed and reflected by the reverse surfaces of the inclined plates 6 onto the material plates 2, 3 Due to the shortened shanks 22 on the visors 7 of the inclined plates 6, made with a reverse inclination, the edges 23 in the direction of the adjacent inclined plates 6, the noise flow is disrupted nnym in slot 8. The truncated trap liners 22 also prevent tearing of the noise flux trap gap 6. During the passage of materials of plates 2, 3 flow noise is suppressed and absorbed by the material. The active components of the high-frequency spectrum of the noise stream, penetrating into the flat chamber 13 at various angles due to the properties of the materials of the plates 2, 3, mix, interact with the cavities 11 of the separators 9 through the transverse through holes 15 made in them, are suppressed, quenched, and the plates of materials 3 pass into which are also suppressed and quenched, enter wall 4, are absorbed by it, partially reflected by it in the opposite direction, which contributes to the final absorption of the components of the noise flow in the plates of materials 2, 3 therebetween in chamber 13. The slope of the flat plates 6 to the base of the shield and prevents breakthrough flow around it from the top of the active components of the high frequency noise spectrum stream screen provides protection from rain. The presence of transverse through holes 17 in the lower part 16 of the rectangular frame 1 also contributes to the effective dispersion of the noise stream through them from under the plates of materials 2, 3, the removal of moisture, condensate accumulated in the plates of materials 2, 3 as a result of wind exposure to the falling atmospheric precipitation in direction to the protective screens.

 Materials of the protective screen, its fragments and samples of protective screens made using the new technical solution have been tested both in laboratory and in real operating conditions, the test results are positive. The total effective value of the absorbed noise stream in the protective screen of the proposed design is in the range of 90 - 100 decibels, which significantly exceeds the best results of the known prototype, equal to 86 decibels.

 Protective screens of the proposed design are reproducible industrially on existing equipment using domestic materials.

 Thus, the new technical solution in the aggregate of the proposed essential features when implemented in protective screens gives a positive effect, also meets the criterion of "industrial applicability", i.e. level of invention.

 It should be noted that there may be various options for the implementation of a protective screen for roadside sound absorption in relation to the shape, size and location of individual elements, if all this does not go beyond the scope of the technical solution set forth in the claims.

Claims (12)

1. A protective screen for roadside sound absorption, comprising a rectangular frame, parallel-mounted slabs of materials with differentiated sound-absorbing properties, a flat back wall and oblique parallel-mounted face plates mounted on the frame with visors, gap traps between them, respectively, for reflection and dispersion of low-frequency noise flow, separation and capture in the active phase of a high-frequency noise stream, the primary suppression of the divided noise stream in slit traps and its directed feeding onto plates of materials with differentiated noise absorption properties, characterized in that the screen is equipped with hollow separators of plates of materials with differentiated noise absorption properties, made in the form of linear segments of rods of a rectangular or circular tubular profile with resonant cavities installed along the inner contour of a rectangular frames with the formation between the plates of materials of a flat chamber mixing the active components of the high-frequency noise spectrum of the flow, in the walls of the tubular linear segments of the plates of the separator plates from the side of the flat chamber and the bottom of the rectangular frame there are transverse through holes located along the plates of materials, and the visors of the inclined plates are equipped with shortened shanks made with a reverse inclination, the edges directed to adjacent inclined plates, moreover, the front inclined plates, the rear flat wall, hollow dividers and a rectangular frame
made of glass- or basalt-plastic, and plates of materials - made of glass- or basalt-fiber material, and / or foam aluminum, or foam concrete, or in combination with glass- or basalt-fiber reinforcing them in a sequential arrangement from the front inclined plates of first foam concrete plates, then plates from foam aluminum and / or plates from the specified fibrous material.  2. The screen according to claim 1, characterized in that in the plates of materials with differentiated noise absorption properties from the side of the oblique face plates there are transverse noise flow separators intersecting with the oblique face plates, made in the form of linear segments of rods made of glass or basalt plastic.  3. The screen according to claim 1 or 2, characterized in that the plates of materials with differentiated properties of sound absorption and a flat chamber for mixing the active components of the noise stream are made with a ratio of their volumes 5: 1 - 1: 1.  4. Screen according to any one of paragraphs.1 to 3, characterized in that the slabs of materials with differentiated noise absorption properties are made whole-piece and / or from layers with frontal areas equal to the opening area of the rectangular frame within its inner contour. 5. Screen according to any one of claims 1 to 4, characterized in that the plates are made of glass or basalt fibers with a diameter of 2 to 20 μm and a length of 10 to 70 mm, discretely located in the plates, with a bulk density of 40 to 160 kg / m ³ , or foam aluminum, or foam concrete with a bulk density of 50 - 200 kg / m ³ , or in combination with glass or basalt mesh reinforcing them with mesh sizes of 5x5 - 20x20 mm, or discrete glass or basalt fibers with a diameter of 2 - 20 μm and a length of 10 - 70 mm.  6. The screen according to any one of paragraphs.1 to 5, characterized in that the front inclined plates and the rectangular frame, respectively, are made of wave-like intersecting fibers.  7. A protective screen for roadside sound absorption, comprising a rectangular frame, parallel-mounted slabs of materials with differentiated sound-absorbing properties, a flat back wall and oblique parallel-mounted face plates mounted on the frame with visors, gap traps between them, respectively, for reflection and dispersion of low-frequency noise flow, separation and capture in the active phase of a high-frequency noise stream, the primary suppression of the divided noise stream in slit traps and its directed feeding onto plates of materials with differentiated noise absorption properties, characterized in that the screen is equipped with hollow separators of plates of materials with differentiated noise absorption properties, made in the form of linear segments of rods of a rectangular or circular tubular profile with resonant cavities installed along the inner contour of a rectangular frames with the formation between the plates of materials of a flat chamber mixing the active components of the high-frequency noise spectrum of the flow, in the walls of the tubular linear segments of the rods of the separators of the plates of materials from the side of the flat chamber and at the bottom of the rectangular frame there are transverse through holes located along the plates of materials, and the visors of the inclined plates are equipped with shortened shanks made with a reverse inclination, the edges directed to adjacent inclined plates, with oblique front plates, plate dividers and a rectangular frame made of glass or basalt plastic, the rear flat wall is made of foam aluminum and and foam concrete, and slabs of materials are made of glass or basalt fiber material, and / or foam aluminum, or foam concrete, or in combination with reinforcing glass or basalt fibers, in the case of sequential arrangement from the inclined face plates, first of foam concrete plates, then of foam aluminum and / or plates of the specified fibrous material.  8. The screen according to claim 7, characterized in that in the plates of materials with differentiated noise absorption properties from the side of the oblique face plates there are transverse noise flow separators intersecting with the oblique face plates made in the form of linear segments of rods made of glass or basalt plastic.  9. The screen according to claim 7 or 8, characterized in that the plates of materials with differentiated noise absorption properties and a flat mixing chamber of the active components of the noise stream are made with a ratio of their volumes 5: 1 - 1: 1.  10. The screen according to any one of paragraphs.7 to 9, characterized in that the slabs of materials with differentiated noise absorption properties are made whole and / or from layers with frontal areas equal to the opening area of the rectangular frame within its inner contour. 11. Screen according to any one of paragraphs.7 to 10, characterized in that the plates are made of glass or basalt fibers with a diameter of 2 to 20 μm and a length of 10 to 70 mm, discretely located in the plates, with a bulk density of 40 to 160 kg / m ³ , or foam aluminum, or foam concrete with a bulk density of 50 - 200 kg / m ³ , or in combination with glass or basalt glass reinforcing them with mesh sizes of 5x5 - 20x20 mm, or discrete glass or basalt fibers with a diameter of 2 - 20 μm and a length of 10 - 70 mm.  12. The screen according to any one of paragraphs.7 to 11, characterized in that the front inclined plates and the rectangular frame, respectively, are made of wave-like intersecting fibers.

Images