RU17785U1 - ROLL SOUND INSULATING MATERIAL - Google Patents

Abstract

1. Soundproofing and heat-insulating roll material made in the form of a multilayer structure consisting of layers of foamed polyethylene and aluminum foil, characterized in that between the layers of foamed polyethylene is a plastic layer of material with a coefficient of energy loss of acoustic vibrations and a density exceeding the coefficient of energy loss of acoustic vibrations and density of aluminum foil. 2. Soundproofing and heat-insulating roll material according to claim 1, characterized in that the plastic layer is made in the form of a single-row layer of metal balls. Sound insulating and heat insulating roll material according to claim 1, characterized in that the plastic layer is made in the form of sawdust. Sound insulating and heat insulating roll material according to claim 1, characterized in that the plastic layer is made of lead sheet. Sound insulating and heat insulating roll material according to claim 1, characterized in that the plastic layer is made of annealed copper. Sound insulating and heat insulating roll material according to claim 1, characterized in that the plastic layer is made of composite.

Description

Sound insulation material

The utility model relates to construction and can be used to reduce the level of pgum in residential public and industrial premises, mainly to increase the sound insulation of building envelopes, as well as for thermal insulation.

A device for reducing the energy of acoustic vibrations emanating from a solid surface, comprising a two-layer plate consisting of layers made of various materials (FR Patent No. 744204, E 04 B 1/86, 1932).

The known device does not sufficiently reduce the energy of acoustic vibrations emanating from a solid surface, due to the insufficient surface of the mass and its rigid attachment to the surface with nails or screws.

A device is known to reduce the energy of acoustic vibrations emanating from a solid surface, including a two-layer plate having N holes for attaching it to the surface, N is a natural number, and the two-layer plate consists of a first layer with a coefficient of notary energy of acoustic vibrations K and a second layer with a coefficient the energy loss of acoustic vibrations KZ K facing the hard surface, and the walls of one or more holes are covered with a material with the coefficient of energy loss of acoustic vibrations KZ Ki (pa ent of the Russian Federation № 2140498, MIC: E 04 B 1/82, published 27.10.99g)...

This known device has a sophisticated technology, a lot of weight, because it is necessary to manufacture a multilayer structure with a large number of holes filled with material with an acoustic vibration loss coefficient exceeding the acoustic vibration loss coefficient of the first layer of the multilayer panel.

A soundproofing panel is known, comprising a solid and sealed housing made of fluoroplastic, in which metal reinforcement is walled. Korggus panels are evacuated and equipped with soundproofing pads on the outside. The complexity of manufacturing, evacuation and the introduction of reinforcement into the panel body only for attaching this panel using electromagnets greatly complicate the panel manufacturing technology, increase its dimensions without leading to a decrease in sound insulation to low generally accepted values. (Patent of the Russian Federation No. 2083775, MGGK: Е 04 В 1/82, published. 07/10/97).

Known soundproofing and heat-insulating roll material PENOFOL, made in the form of a multilayer structure consisting of layers of foamed polyethylene and aluminum foil. The specified roll material is accepted by us as a prototype. Penofol is technologically advanced, has a wide temperature range of use from -60 to + 100 ° C, is available in the form of rolls, is convenient to use, but has relatively low sound insulation (Technical Gosstroy of Russia No. TS-07-0191-99 from 09.21.99g .).

This useful model eliminates this drawback while maintaining the positive characteristics of penofol, namely.

wide temperature range of use, the possibility of roll manufacturing.

The technical result of this utility model is to reduce the energy of acoustic vibrations to any given level, reduce the size and weight of sound absorber; ayush; her panels, maintaining its flexibility and ease of use.

The technical result is achieved by the fact that in soundproofing: ayush; it and a heat-insulating panel made in the form of a multilayer structure, consisting of layers of foamed polyethylene and aluminum foil, between the layers of foamed aluminum there is a plastic layer of sheet or granular material with a coefficient of acoustic vibration loss and densities exceeding the coefficient of acoustic vibrations and the density of aluminum foil. The plastic layer is made in the form of a single-row layer of metal balls (for example, steel, lead, etc.), metal filings, or in the form of a lead sheet or sheet of annealed copper. The thickness of the sheet layer is in the range from 0.15 to 2 mm in order to maintain ductility. The plastic layer can also be made composite.

The plastic layer can be made in the form of sawdust, both metal and wood

The essence of the utility model is illustrated in FIG. 1 and 2.

In FIG. 1 is a fragment of a soundproof panel, where 1 is a layer of aluminum foil, 2 is a layer of universal polyethylene, 3 is a layer of granular material.

Pa Figure 2 presents experimental graphs comparing the sound insulation of the layers of penofol with a layer of lead shot and a known panel based on a drywall sheet with

sound-absorbing material, where 4 is the change in sound insulation of a product containing a five-millimeter layer of penofol, an intermediate two-millimeter layer of lead shot and another five-millimeter layer of penofol. The surface weight of such a product is 15 kg / sq. M, and the sound insulation index R is about 32 dB; 5 is a known panel comprising a twelve-millimeter layer of drywall sheet, an intermediate twenty-millimeter layer of sound-absorbing material, a twelve-millimeter layer of drywall and a twenty-millimeter layer of sound-absorbing material. The linear mass of the product is 32 kg / sq.m, and the sound insulation index RVV is about 20 dB.

Roll material works as follows. Roll material, as the plastic layer does not reduce the flexibility of the roll; it rolls along the surface of walls, ducts or pipelines of cold and hot water supply systems, heating systems for rooms in residential buildings, public and industrial buildings, including agricultural ones.

Due to the reflection of the infrared part of the radiation from the layer of aluminum foil 1, the transmission of radiant energy is reduced. The effect of thermal insulation is determined by the low thermal conductivity of the polyethylene foam layer 2 and the high reflectivity of the aluminum foil 1.

Sound insulation is enhanced by the plastic layer 3, which does not allow the propagation of acoustic vibrations along the plastic layer 3, which can occur when the intermediate layer 3 is made of an elastic material, and significantly reduces the passage of acoustic vibrations in the direction perpendicular to the panel surface. Structure

the positions of layers 2 and 3 can be performed periodically using layer 1, both in a periodic structure and in the form of external boundary surfaces.

At the same time, it remains possible to preserve the properties of the rolled material, which is easily cut to cover surfaces of any configuration, and is fastened with ordinary nails, screws or scotch tape. The roll material can be fixed to the walls using skirting boards, corners, etc. rack elements.

Choosing the size of the granules and / or the number of plastic layers 3 located between the layers of foamed polyethylene 2, you can get any predetermined amount of sound insulation. Acoustic vibrations passing through each layer of sound-insulating roll material are partially reflected from them and partially absorbed; they are transmitted, reducing the energy of acoustic vibrations from layer to layer. The main elements that dampen the flow of energy of acoustic vibrations are layers 3.

Claims (6)

1. Soundproofing and heat-insulating roll material made in the form of a multilayer structure consisting of layers of foamed polyethylene and aluminum foil, characterized in that between the layers of foamed polyethylene is a plastic layer of material with a coefficient of energy loss of acoustic vibrations and a density exceeding the coefficient of energy loss of acoustic vibrations and the density of aluminum foil.  2. Soundproofing and heat-insulating roll material according to claim 1, characterized in that the plastic layer is made in the form of a single-row layer of metal balls.  3. Soundproofing and heat-insulating roll material according to claim 1, characterized in that the plastic layer is made in the form of sawdust.  4. Sound insulating and heat insulating roll material according to claim 1, characterized in that the plastic layer is made of lead sheet.  5. Sound insulating and heat insulating roll material according to claim 1, characterized in that the plastic layer is made of annealed copper. 6. Sound insulating and heat insulating roll material according to claim 1, characterized in that the plastic layer is made composite.