RU2383700C1 - Structure of floor on elastic foundation - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention is related to the field of construction, in particular to structure of floor on elastic foundation. Floor structure comprises mount slab made of concrete reinforced with vibration-damping material, which is installed on foundation slab of floor deck with cavities via layer of vibration-damping material and dampproof material with clearance relative to bearing walls of premises, which are arranged with flanging that is tightly adjacent to bearing structures of walls and bearing foundation slab. Cavities of foundation slab are filled with vibration-damping material, for instance foamed polymer.

EFFECT: improved vibration-absorbing and sound-insulating properties of floor.

2 cl, 1 dwg

Description

The invention relates to construction and can be used for vibration isolation, sound insulation in enclosed spaces during installation and installation of ventilation units, compressors, generators and other equipment.

Known floor design on an elastic base according to.with. USSR No. 600271, Е04В 1/74, 1972 (prototype), including bearing plates with holes, an elastic element and floor plates.

A disadvantage of the known technical solution is the relatively low vibration and soundproof properties.

The technical result is an increase in vibration-absorbing and soundproofing properties of the floor.

This is achieved by the fact that the floor structure on an elastic base, comprising a supporting floor slab connected with the wall, an elastic base located on the supporting slab, further comprises a mounting plate made of concrete reinforced with vibration damping material, which is installed on the base floor slab with cavities through the layers vibration-damping material and waterproofing material with a gap relative to the bearing walls of the production room, which are made with flanging, tightly ilegayuschey to the supporting structures of the walls and the base support plate, the base plate cavity filled vibration damping material, such as foamed polymer.

The drawing schematically shows the proposed floor design on an elastic base.

The floor structure on an elastic base contains a mounting plate 1 made of concrete reinforced with vibration damping material, which is installed on the base plate 4 of the floor with cavities 5 through layers of vibration damping material 3 and waterproofing material 2 with a gap of 6 relative to the bearing walls 7 of the production room. In order to ensure effective vibration isolation of the mounting plate 1 in all directions, the layers of vibration damping material 3 and waterproofing material 2 are made with a flange that is tightly adjacent to the supporting structures of the walls 7 and the base supporting plate 4 of the floor. To increase the efficiency of sound insulation and sound absorption in workshops located under the floor, the cavities 5 are filled with vibration damping material, for example, foamed polymer, for example polyethylene or polypropylene, and the walls 7 are lined with sound-absorbing structures. As sound-absorbing material of sound-absorbing plates, slabs made of rockwool basalt mineral wool or URSA type mineral wool or P-75 basalt wool or glass wool cladding are used, and the sound-absorbing element is lined over its entire surface acoustically transparent material (not shown in the drawing), for example, fiberglass type EZ-100 or polymer type "Poviden."

As a sound-absorbing material, a rigid porous material, for example, foam aluminum or cermets, or a shell rock with a degree of porosity in the range of optimal values: 30–45%, can be used.

As a sound-absorbing material, a material in the form of crumbs from 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 floor structure on an elastic base works as follows.

When vibroactive equipment is installed on plate 1, two-stage vibration protection occurs, due to vibration damping inclusions in the mass of plate 1 itself, and also due to the layer of vibration damping material 3, 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 .

The transition of sound energy into thermal energy (dissipation, energy dissipation) occurs in the pores of sound-absorbing material, which is a model of Helmholtz resonators, where energy losses occur due to friction of the mass of air in the resonator’s neck, which oscillates with the excitation frequency, against the wall of the mouth itself, which has view of a branched network of pores of sound-absorbing material. Moreover, needle-punched mats consist of fibers having a diameter not lower than the maximum permissible hygienic value, do not contain carcinogenic asbestos and ceramic fibers, and such harmful binders as phenol are not included in their composition. Therefore, with confidence they can be attributed to the class of heat and sound insulating materials that meet high hygienic and fire safety requirements. We add that fiberglass materials have low thermal conductivity, are not influenced by steam, oil, water, and have high temperature stability.

Claims (5)

1. The floor structure on an elastic base, comprising a base plate connected to the wall, an elastic base located on the base plate, characterized in that it further comprises an installation plate made of concrete reinforced with vibration damping material, which is mounted on the base floor plate with cavities through layers of vibration-damping material and waterproofing material with a gap relative to the bearing walls of the production room, which are made with a flange, tight adjacent to the supporting structures of the walls and the base support plate, the base plate cavity filled vibration damping material, such as foamed polymer. 2. The floor structure on an elastic base according to claim 1, characterized in that the elastic base is made of a rigid porous vibration-absorbing material, for example elastomer, or polyurethane with a degree of porosity in the range of optimal values: 30 ÷ 45%. 3. The floor structure on an elastic base according to claim 1, characterized in that the elastic base is made of needle-punched mats of the type "Vibrosil" based on silica or aluminoborosilicate fiber. 4. The floor structure on an elastic base according to claim 1, characterized in that the elastic base is made of solid vibration-damping materials, for example, plastic compound. 5. The floor structure on an elastic base according to claim 1, characterized in that the elastic base is made of soundproofing plates based on glass staple fibers of the “Shumostop” type with a material density of 60 ÷ 80 kg / m ³ .

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