SU572554A1 - Floor structure - Google Patents

Description

The new match is shifted to the low frequency region, which reduces sound insulation. In addition, due to insignificant losses due to internal friction in the material of the inserts and the panel, the irreversible dissipation of the mechanical vibrational energy under the action of a sound wave is very small.

The aim of the invention is to reduce the weight and increase the sound insulation capacity of the ceiling. This is achieved in that the liners are made with diaphragms that are intermixed in mutually perpendicular directions and are separated from the fins and the shelf of the panel by a layer of damping material. The side surfaces of the liners can be made with longitudinal grooves.

With this interfloor overlap, the liners are acoustically separated from the floor of the panel structure by means of an elastic-viscous layer, and the voids of the liners are significantly reduced. The overlap can be represented as a system of rigid masses uniformly distributed over the surface and not connected to each other, each of which performs an independent oscillatory motion. In this case, due to an increase in the cutoff frequency of the wave coincidence, the region of anomalous sound emission, where the emission coefficient is less than 1, will be expanded. On the other hand, the presence of damping of its material between the liner and the fins of the panel increases the acoustic loss at the “liner-panel” boundary due to increased internal friction losses in the interlayer and mismatch of the impedances of the layers.

In addition, the possibility of forming resonance phenomena in the air cavity of the liner in the low-frequency region will be reduced, since, due to the presence of diaphragms placed in mutually perpendicular directions, the cavity size will be reduced so that the quarter wavelength of sound will exceed its height, and liner stiffness oudet increased.

An embodiment of the overlap is possible, in which the liners are made solid of lightweight material, for example, expanded clay concrete, perlite concrete, fiberboard, etc.

FIG. 1 shows the proposed overlap, a general view; in fig. 2 is the same cross section; in fig. 3-plan fragment with liner layout; in fig. 4-piece liner.

The interfloor overlap includes a floor panel 1 with ribs 2 arranged in mutually perpendicular directions, between which facilitated liners 3 are placed containing diaphragms 4 arranged in mutually perpendicular directions. The liners 3 are separated from the ribs 2 and the flange of lanel 1 with a layer 5 of damping material. Fastening inserts with ribs

This is accomplished by means of protrusions b located on the ribs and longitudinal grooves 7 located on the side surfaces of the inserts. The additional fastening of the liners is carried out with the help of a leveling decorative stitch 8, which can simultaneously serve as a ceiling in the room. The sound waves generated by the noise source fall at all angles on

floor panel 1 and excite it bending waves that emit sound energy in an isolated room.

The increased sound insulation capacity of the overlap will be ensured without reducing the sound emission coefficient in the area of anomalous radiation; an increase in dissipative losses in layer 5; vibro-retaining effect of elastically attached masses of lightweight liners 3;

reduction of resonance phenomena in the cavity of liners.

As a result of these effects, the sound energy passing through the proposed interfloor overlap significantly

decreases. On the other hand, when the technical solution overlaps, its material consumption decreases. This provides the necessary sound insulation overlap with minimal weight.

Floor slabs can be made of heavy and lightweight concrete, expanded clay concrete, thermal concrete and so on, etc. Ceramic stones, blocks, light concrete products made in a known manner can be used as liners. For the demoulding material covering the liners, materials are commercially available based on polymer emulsions, for example, PVA, bituminous resins, vulcanized butyl rubber mastic, for example, CPL-2 primer, etc.

The overlap provides, in comparison with the acoustically homogeneous ceilings equivalent in terms of sound insulating ability, the following savings: reducing the weight of the overlap by 18%; | reducing the consumption of concrete by 36%; reduction of steel consumption by 4%; reduction in the cost of overlap by 2%.

The manufacture of this interfloor overlap can be easily carried out at the operating enterprises of the construction industry without a significant change in the technological process using the existing

equipment and tooling.

Claims (2)

1. Interfloor overlapping, including a panel with ribs arranged in mutually perpendicular directions And placed between them by lightweight liners having nustot and connected to the ribs and panel, characterized in that, in order to reduce the weight and increase the sound insulation ability of the ceiling, The liners are made with diaphragms placed in mutually perpendicular directions and separated from the ribs and flanges of the lanel by a layer of damping material. 2. The overlap of claim. 1, characterized in that the side surfaces of the liners are made with longitudinal grooves. Sources of information taken into account in the examination 1. Author's certificate number 293981, cl. E 04B 1/82, 1969. 2. The patent of Germany No. 2126496, cl. 37a, 1/82, 1970. g Fig.z