RU2622935C1 - Acoustic construction for industrial facilities - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: acoustic construction for industrial facilities contains the frame of the workshop, window openings and acoustic wall fences, piece sound absorbers mounted above the noisy equipment, which is mounted on the antivibration bearings. The window openings comprise vacuum sound-proofing glass units. The acoustic wall fences are made in the form of noise-attenuating panels which consist of a frame made in the form of a parallelepiped formed by the front and back walls of the panel, each of which is U-shaped. Slot perforation is made on the front wall and its perforation coefficient is equal to or exceeds 0.25, and lateral edges increase the panel rigidity on the whole. Panel walls are fixed to each other by a vibration cushioning lids, and sound absorbing element is located between the front and back walls of the panel, which is presented by plates made of basalt-based mineral wool of "Rockwool" type or mineral wool of "URSA" type. The front and back walls of the corrugated material are made of stainless steel or a galvanized steel sheet 0.7 mm thick with a polymer protective and decorative coating such as " Пурал" 50 mcm thick or " Полиэстер" 25 mcm thick, or of an aluminium sheet 1.0 mm thick and coating 25 µm thick. The ratio of the height h of the frame to its width b is in an optimal value ratio: h/b=1.0…2.0. The ratio of the thickness s' of the assembled frame to its width b is in an optimum value ratio: s'/b=0.1…0.15. The ratio of the thickness s of the sound absorbing element to the thickness s' of the assembled frame is in the optimum value ratio: s/s'=0.4…1.0. The vibration cushioning lids fixing the panel walls are made of elastomer, polyurethane foam or polyethylene foam, lignocellulosic, chip wood material, or gypsum-asbestos cardboard, or an elastic sheet vibration-absorbing material with an internal loss factor of at least 0.2, or a composite material, or a plastic of "Агат", "Антивибрит", or "Швим" type. The piece sound absorbers mounted above the noisy equipment are made in the form of a frame which is made spherical with an internal spherical resonance cavity congruent to the frame, formed by a rigid continuous spherical shell, equidistant to the outer perforated spherical shell. Space between spherical shells is filled with sound absorbing material, and connection of the outer perforated spherical shell with the object, for example with the ceiling of industrial facility, is made using elastic damped element which allows to damp high frequency oscillations and is pin-connected with the suspension, made in the form of a rod, one end of which is connected with a pin which is installed on the elastic damped element, and the other is connected to the ring, intended for its fixation on the object. The spherical resonant cavity is rigidly connected by at least one sleeve with an axial hole serving as the neck of the Helmholtz resonator, with an outer perforated spherical shell, and the space between them is filled with a sound absorber.

EFFECT: improved efficiency of noise suppression.

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Description

The invention relates to industrial acoustics.

The closest technical solution in terms of technical nature and the achieved result is the acoustic construction of industrial premises according to the patent of the Russian Federation No. 2366785, [prototype], containing a workshop frame, window openings and acoustic fences in the form of acoustic noise absorbing panels assembled in a section, and piece sound absorbers installed above the noise equipment.

The disadvantage of the technical solution adopted as a prototype is the relatively low efficiency of sound attenuation due to the relatively low coefficient of sound absorption.

The technical result is an increase in sound attenuation efficiency by increasing the sound absorption coefficient by increasing the sound absorption surfaces while maintaining the overall dimensions of the room.

This is achieved by the fact that in an acoustic design for industrial premises containing a workshop frame, window openings and acoustic wall fencing, piece sound absorbers installed above noisy equipment that is mounted on vibration-isolating supports, and the window openings contain vacuum soundproof glass units, and the acoustic wall fencing in the form of sound-absorbing panels, which consist of a frame made in the form of a parallelepiped formed by the front and rear walls of the panel, each of which has a U-shape, and on the front wall there is slotted perforation, the perforation coefficient of which is taken to be equal to or more than 0.25, and the side ribs increase the stiffness of the panel as a whole, while the panel walls are fixed between themselves by vibration damping covers, and between the front and back the walls of the panel are a sound-absorbing element, which is used rockwool basalt-based mineral wool or URSA-type mineral wool slabs, and the front and rear walls of the frame are made of stainless steel or galvanized sheet with a thickness of 0.7 mm with a polymeric protective and decorative coating of the Pural type with a thickness of 50 μm or Polyester with a thickness of 25 μm, or an aluminum sheet with a thickness of 1.0 mm and a coating thickness of 25 μm, the ratio of the height h of the frame to its width b is in the optimal ratio of values: h / b = 1,0 ... .2,0; and the ratio of the thickness s 'of the frame assembly to its width b is in the optimal ratio of values: s' / b = 0.1 ... 0.15; and the ratio of the thickness s of the sound-absorbing element to the thickness s 'of the frame assembly is in the optimal ratio of values: s / s' = 0.4 ... 1.0, and the vibration damping covers fixing the panel walls are made of elastomer, polyurethane foam or polyethylene foam, wood fiber, particleboard material, or gypsum-asphalt board, or elastic sheet vibration-absorbing material with an internal loss coefficient of at least 0.2, or a composite material, or plastic compound such as "Agate", or "Anti-Vibrate", or "Shvim".

In FIG. 1 shows a general view of an acoustic structure for a production room; FIG. 2 is a general view of an acoustic noise absorbing panel; FIG. 3 is a diagram of a piece sound absorber.

The acoustic structure for industrial premises (Fig. 1) comprises a workshop framework (not shown in the drawing), walls 1, 2, 3, 4 with acoustic fencing, suspended acoustic ceiling 5, floor 6, coated with vibration damping material, piece sound absorbers 7 and 8, window 9 and door 10 openings. The equipment 11 is installed on vibration-isolating supports (not shown in the drawing), window openings 9 contain vacuum soundproofing double-glazed windows, and acoustic wall protections are made in the form of sound-absorbing panels (Fig. 2), which consist of a frame made in the form of a parallelepiped formed by the front 12 and the rear 13 walls of the panel, each of which has a U-shape, and on the front wall there is a slotted perforation 14 and 15, the perforation coefficient of which is taken to be equal to or more than 0.25, and the side ribs 16, 17 increase panel rigidity in general. The panel walls are fixed to each other by vibration damping covers 19, 20, and between the front 12 and rear 13 of the panel walls there is a sound-absorbing element 18, which is used as rockwool or rock wool rock wool or URSA or rock wool basalt panels type P-75 cotton wool, or glass wool with glass fiber lining, or foamed polymer, for example polyethylene or polypropylene, and the sound-absorbing element is lined with an acoustically transparent material over its entire surface, for example, glass otkanyu type EG-100 or a polymer type "Poviden".

The ratio of the height h of the frame to its width b is in the optimal ratio of values: h / b = 1.0 ... 2.0; and the ratio of the thickness s 'of the frame assembly to its width b is in the optimal ratio of values: s' / b = 0.1 ... 0.15; and the ratio of the thickness s of the sound-absorbing element to the thickness s 'of the frame assembly is in the optimal ratio of values: s / s' = 0.4 ... 1.0; and vibration damping covers fixing the panel walls are made of elastomer, or polyurethane foam, or polyethylene foam, or fiberboard, or particleboard, or gypsum-asphalt board, or elastic sheet vibration-absorbing material with an internal loss factor of at least 0.2, or composite material, or plastic compound like "Agate", "Anti-Vibrate", "Shvim".

The front and rear walls of the frame are made of stainless steel or galvanized sheet with a thickness of 0.7 mm with a protective and decorative polymer coating such as Pural 50 μm thick or Polyester 25 μm thick, or an aluminum sheet with a thickness of 1.0 mm and a coating thickness of 25 microns.

A variant is possible when plates based on aluminum-containing alloys are used as sound-absorbing material of an acoustic sound-absorbing panel, 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 within 5 ... 10 MPa, bending strength in the range of 10 ... 20 MPa.

In FIG. 3 shows a diagram of a piece sound absorber made in the form of a spherical sound absorber.

The spherical sound absorber contains a rigid frame made of a spherical shape with an internal congruent frame of a spherical resonant cavity 28 formed by a rigid continuous spherical shell 26, an equidistant external perforated spherical shell 24. In this case, the space 27 between the spherical shells 24 and 26 is filled with sound-absorbing material, and the outer connection spherical shell 24 with an object, such as the ceiling of a production room, is made by means of an elastic damping element 25, which allows damping high-frequency vibrations, and pivotally connected to a suspension 22 made in the form of a rod, one end of which is connected to a hinge 23 mounted on an elastic-damping element 25, and the other is connected to a ring 21 designed to fix it on an object.

The spherical resonant cavity 28 is rigidly connected by at least one sleeve 29 with an axial hole that serves as the neck of the Helmholtz resonator, with an external perforated spherical shell 24, and the space 27 between them is filled with a sound absorber.

Sound absorber spherical works as follows.

Sound waves propagating at an industrial or transport facility interact with sound-absorbing material located in space 27 formed by a rigid continuous spherical shell 26, an equidistant external perforated spherical shell 24, suppressing noise at low, medium and high frequencies, respectively.

The connection of the frame by means of an elastic damping element 25, allows you to damp high-frequency vibrations that can be emitted by a rigid frame, which allows it to be used to reduce noise on transport objects. Sound absorption at medium and high frequencies occurs due to the acoustic effect, built on the principle of the Helmholtz resonator, formed by the air spherical cavity 28 and the neck of the resonator 29, the diameter of which is selected in the required sound frequency range for damping noise in a given frequency band, as a rule: large volumes for noise suppression - in the low-frequency range, and small - in the medium and high frequencies, and the implementation of a sound absorber from non-combustible materials makes the design fireproof d.

Acoustic design for industrial premises works as follows.

Sound energy from the equipment 11 located in the room, passing through the perforated wall 12 of the fences 1, 2, 3, 4, enters the layers of the sound-absorbing element 18, made of sound-absorbing material, in which the sound energy is converted into thermal energy (dissipation, energy dissipation) At the same time, the pores of the sound absorber represent the Helmholtz resonator model, where energy losses occur due to friction of the mass of air in the cavity of the resonator, which vibrates with the excitation frequency, against the walls of Orlov, 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.

The acoustic design proposed by the author is an effective way to combat industrial noise.

Claims (1)

The acoustic construction of industrial premises, containing the workshop frame, window openings and acoustic wall fencing, piece sound absorbers installed above noisy equipment that is mounted on vibration-isolating supports, the window openings containing vacuum soundproof glass units, and the acoustic wall fencing made in the form of sound-absorbing panels, which consist of from a frame made in the form of a parallelepiped formed by the front and rear walls of the panel, each of which has a U-shaped moreover, on the front wall there is slotted perforation, the perforation coefficient of which is taken to be equal to or more than 0.25, and the side ribs increase the stiffness of the panel as a whole, while the panel walls are fixed between themselves by vibration damping covers, and a sound-absorbing element is located between the front and rear walls of the panel, which are made of rockwool basalt-based mineral wool or URSA-type mineral wool slabs, and the front and back walls of the frame are made of stainless steel or galvanized steel a hundred 0.7 mm thick with a polymeric protective and decorative coating of the Pural type 50 μm thick or Polyester 25 μm thick, or an aluminum sheet 1.0 mm thick and a coating thickness of 25 μm, with the ratio of the height h of the frame to its width b is in the optimal ratio of values: h / b = 1.0 ... 2.0; and the ratio of the thickness s 'of the frame assembly to its width b is in the optimal ratio of values: s' / b = 0.1 ... 0.15; and the ratio of the thickness s of the sound-absorbing element to the thickness s 'of the frame assembly is in the optimal ratio of values: s / s' = 0.4 ... 1.0, and the vibration damping covers fixing the panel walls are made of elastomer, polyurethane foam or polyethylene foam, wood fiber, particleboard material, or gypsum-asphalt board, or an elastic sheet of vibration-absorbing material with an internal loss coefficient of at least 0.2, or a composite material, or plastic compound such as “Agate”, or “Anti-vibration”, or “Shvim”, characterized in that the unit sound the absorbers installed above the noisy equipment are made in the form of a frame, which is made of a spherical shape with an internal congruent frame of a spherical resonant cavity formed by a rigid continuous spherical shell, an equidistant external perforated spherical shell, while the space between the spherical shells is filled with sound-absorbing material, and the connection of the external perf spherical shell with an object, such as the ceiling of a production room, is made by an damping element that allows damping high-frequency vibrations and pivotally connected to a suspension made in the form of a rod, one end of which is connected to a hinge mounted on an elastic-damping element, and the other is connected to a ring designed to fix it on the object, and the spherical resonant cavity is rigidly connected at least one sleeve with an axial hole that serves as the neck of the Helmholtz resonator, with an external perforated spherical shell, and the space between and filled with a sound absorber.

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