RU2651991C1 - Soundproofing casing - Google Patents

Abstract

FIELD: soundproofing.

SUBSTANCE: invention relates to acoustic isolation of equipment with means of broadband acoustic suppression and can be used in all sectors of the national economy as a means of protection against noise. Soundproofing casing is made in the form of a rectangular parallelepiped covering technological equipment, technological equipment is installed on at least four vibration-proof supports, that are based on the bridging of the building. Between the process equipment base and the cutout in the rectangular parallelepiped lower face, a gap is made designed to prevent the vibrations transfer from the process equipment to the soundproof enclosure of the casing, and to provide the required microclimate during carrying out the process, the fan is installed inside the casing. In the soundproof enclosure, ventilation ducts are made to eliminate equipment overheating. Internal walls of the ventilation ducts are treated with a sound-absorbing material and an acoustically transparent material of the "poviden" type. Casing includes noise suppressors, installed respectively on the inlet and outlet ventilation ducts. On the inner surface of the soundproofing enclosure the sound-absorbing element in the form of the smooth and perforated surface is fixed, between which the multi-layer sound-absorbing structure is located. Each of the four vibration isolation supports of the vibration isolation system of the process equipment is made in the form of a spring-loaded vibration, comprising a body and an elastomeric elastic member cooperating with the object, the body is made in the form of a base, a lid with a collar and a spherical recess, with which the hairpin interacts with a spherical belt at the end having increased hardness, and the elastic element is made of an elastomer in the form of a package of elastic elements, located along the trajectory of axisymmetric concentric circles in an intermediate element having a central hole and slots for fixing the elastic members.

EFFECT: technical result is to increase the efficiency of noise suppression.

1 cl, 3 dwg

Description

The invention relates to soundproofing equipment.

The closest technical solution to the claimed object is an acoustic casing for equipment according to the patent of the Russian Federation No. 2311286 (prototype), containing a housing and damping elements located inside it.

A disadvantage of the known devices is the relatively low efficiency of sound attenuation due to the absence of silencers in the holes of the casing, designed to maintain thermal balance.

The technical result is an increase in the efficiency of noise suppression.

This is achieved by the fact that in a soundproof casing made in the form of a rectangular parallelepiped covering technological equipment, the technological equipment is installed on at least four vibration-isolating supports that are based on the ceiling of the building, while between the base of the technological equipment and the cutout in the lower face of the rectangular the parallelepiped made a gap designed to exclude the transmission of vibrations from technological equipment to the soundproof enclosure of the casing, and d To ensure the required microclimate during the process, a fan is installed inside the casing, and ventilation ducts are made in the soundproof fence to eliminate overheating of the equipment, while the inner walls of the ventilation ducts are treated with sound-absorbing material and acoustically transparent material of the “seen” type, while reducing aerodynamic noise ventilation system, mufflers are provided in the casing, mounted respectively on the inlet and outlet valves yatsionnyh channels, wherein on the inner surface of the sound-insulating fence sound absorbing member is attached in a smooth and perforated surfaces, between which is placed a multilayer sound absorbing structure.

In FIG. 1 shows a diagram of a soundproof casing with a vibration isolation system for technological equipment, FIG. 2 is a diagram of a variant of a vibration isolator of one of four vibration isolating supports 3 and 4 of a vibration isolation system on which technological equipment 1 is installed, based on the floor 5 of a building, in FIG. 3 is a diagram of a variant of a vibration isolator of one of four vibration isolating supports 12, 13 of a vibration isolation system of a sound insulating casing 6.

A soundproof casing (Fig. 1), made with a vibration isolation system of technological equipment, covers the technological equipment 1 and is installed on the floor 5 of the building by means of at least four vibration-absorbing supports 12 and 13 made of an elastic material, for example, soft rubber, polyurethane.

The soundproof casing 6 is lined on the inside with a sound-absorbing element 7 and has the shape of a rectangular parallelepiped with a cutout in its lower face under the base 2 of the technological equipment 1. The base 2 of the technological equipment 1 is installed on at least four vibration-absorbing supports 3 and 4, which are based on overlap 5 of the industrial building, while between the base 2 of the technological equipment 1 and the cutout in the lower face of the rectangular parallelepiped, a gap is made to exclude The transmission of vibrations from the technological equipment 1 to the soundproof fence 6. To ensure the required microclimate during the technological process, a fan 15 with ventilation channels 8 and 9 is installed inside the casing to eliminate overheating of the equipment, while the inner walls 10 of the ventilation channels 8 and 9 are treated with sound-absorbing material 11 and acoustically transparent material like "poviden". To reduce the aerodynamic noise of the ventilation system, silencers 14 and 16 are installed in the casing, which are installed on the input 8 and output 9 ventilation channels, respectively.

In FIG. 2 shows a general view of the vibration isolator of one of the four vibration isolating supports 3 and 4 of the vibration isolation system, on which the technological equipment 1, based on the floor 5 of the building, is installed.

The vibration isolator (Fig. 2) contains a housing made in the form of a base 19, a cover 18 with a shoulder and a spherical recess 28, with which the stud 30 interacts with a spherical girdle 17 at the end having increased hardness (for example, as a result of quenching by high-frequency currents). The stud 30 enters the hole of the vibration-isolating object 31, which is the base 2 of the technological equipment 1, and is fastened in it by means of nuts 29 and 32. The elastic element is made of elastomer in the form of a package of elastic elements 23, 25, 27 located along the path of axisymmetric concentric circles in an intermediate element 20 having a Central hole 21 and slots 22, 24, 26 for fixing the elastic elements 23, 25, 27. The cross-sectional shape of the elastic elements can be as polygonal, for example rectangular, square, trapezoidal, and described by a second order curve such as a circle, ellipse, hyperbola, parabola, or a combination thereof. The ratio of the stiffnesses of the elastic elements 23, 25, 27 increases from the center to the periphery, which makes the vibration isolation system of equal frequency, i.e. C ₇ > C ₉ > C ₁₁ .

Vibration isolator works as follows.

With vibrations of the vibration-isolating object 31 (base 2 of the technological equipment 1) mounted on the stud 30, the elastic element of the elastomer, consisting of elastic elements 23, 25, 27, perceives vertical loads, thereby weakening the dynamic effect on the ceiling 5 of the building. Horizontal vibrations are damped due to the unrestricted location of the elastic element, which gives it a certain degree of freedom of vibrations in the horizontal plane.

In FIG. 3 is a diagram of a variant of a vibration isolator of one of four vibration isolating supports 12, 13 of a vibration isolating system of a soundproofing casing 6.

The vibration isolator (Fig. 3) contains a housing that is made in the form of a lower flange 33 in the form of a rhombus with rounded corners at the vertices, rigidly connected with a ring 35, the axis of which coincides with the intersection point of the diagonals of the rhombus, and mounting holes 36 are located in the lower flange, and in the ring is an elastomer 34 in the form of a cylindrical disk, in which the fastener 37 in the form of a hexagonal prism with a threaded hole 38 inside is rigidly mounted. The ratio of the height of the vibration isolator h to the diameter D of the supporting surface of the cylindrical disk of the elastomer is in the optimal ratio of values: h / D = 0.45 ... 1.55.

Vibration isolator works as follows.

With vibrations of the base of the soundproof casing 6, the elastic element 34 perceives vertical loads, thereby weakening the dynamic effect, while the horizontal vibrations are damped due to the unrestricted location of the elastic element, which gives it a certain degree of freedom of vibration in the horizontal plane. The profile of the lateral surfaces of the elastomer is hyperbolic in the form of a bar of equal resistance, having constant stiffness in the axial and transverse directions, allows for equal strength, equal frequency and economy of rubber (elastomer).

Sound insulation casing works as follows.

Soundproof casing 6 (Fig. 1) is installed on the floor 5 of the building by means of at least four vibration-isolating supports 12 and 13 made of an elastic material, for example, soft rubber, polyurethane. Soundproof fence 6 is lined (fixed on it) from the inside with a sound-absorbing element 7 (Fig. 2). The soundproofing fence 6 is made in the form of a rectangular parallelepiped with a cutout in its lower face under the base 2 of the technological equipment 1. The base 2 of the technological equipment 1 is installed on at least four vibration isolating supports 3 and 4, which are based on the ceiling 5 of the industrial building, while between the base 2 of the technological equipment 1 and the cutout in the lower face of the rectangular parallelepiped, a gap is made to prevent transmission of vibrations from the technological borudovaniya 1 to 6. In the sound-insulating fence sound-insulating fence 6 operate ventilation ducts 8 and 9 to eliminate overheating, the inner wall 10 of ventilation ducts 8 and 9 treated with sound-absorbing material 11 and acoustically transparent material such as "poviden".

The sound-absorbing element 7 is fixed on the inner surface of the sound-insulating fence 6 and is made in the form of smooth 14 and perforated 15 surfaces, between which a multilayer sound-absorbing structure is placed.

Claims (1)

A soundproof casing made in the form of a rectangular parallelepiped covering technological equipment, the technological equipment is installed on at least four vibration isolating supports based on the building floor, and a gap is made between the base of the technological equipment and the cutout in the lower face of the rectangular parallelepiped to prevent transmission vibration from technological equipment to the soundproof enclosure of the casing, and to ensure the required m When the process is carried out, a fan is installed inside the casing, and in the soundproof enclosure ventilation ducts are made to eliminate equipment overheating, while the inner walls of the ventilation ducts are treated with sound-absorbing material and acoustically transparent material of the “visible” type, while reducing the aerodynamic noise of the ventilation system in the casing silencers are provided that are installed respectively on the inlet and outlet ventilation ducts, while A sound-absorbing element is fixed to the inner surface of the soundproof fence in the form of smooth and perforated surfaces, between which there is a multilayer sound-absorbing structure, characterized in that each of the four vibration-isolating supports of the vibration isolation system of technological equipment is made in the form of a vibration isolator containing a body and an elastic element made of elastomer interacting with the object , the housing is made in the form of a base, a cover with a shoulder and a spherical recess with which w interacts a file with a spherical girdle at the end having increased hardness, and the elastic element is made of elastomer in the form of a package of elastic elements located along the path of axisymmetric concentric circles in the intermediate element having a central hole and slots for fixing elastic elements, the cross-sectional shape of which can be as polygonal , for example, rectangular, square, trapezoidal, and described by second-order curves, for example in the form of a circle, ellipse, hyperbola, parabola, and in the form of their combinations tion, wherein the ratio of stiffness of the elastic elements increases from the center to the periphery, which makes equifrequent vibration isolation system.

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