RU203541U1 - SOUND-INSULATING AND HEAT-INSULATING MATERIAL - Google Patents

Abstract

The utility model relates to sound-, vibration- and heat-insulating building materials used in the field of civil and industrial construction, reconstruction and repair of buildings and structures. The technical problem of this utility model is the creation of a sound-proof and heat-insulating material that expands the line of similar products on the market and has increased heat, sound and vibration properties. The technical result is achieved by using a sound-insulating and heat-insulating material containing a fiberglass sheet and a protective double-sided glass fiber cladding, while the fiberglass sheet has a surface density of 2500 ± 10% g / m2, and a double-sided fiberglass cladding has a surface density of 225 ± 20% g / m2. 2 fig.

Description

The utility model relates to sound, vibration and heat insulation building materials used in the field of civil and industrial construction, reconstruction and repair of buildings and structures.

Known thermal and sound insulating and filtering material "Termozvukoizol" (RF patent No. 2077368, published on 20.04.1997), containing glass fiber stitched fiber and a double-sided protective shell of non-woven polypropylene, while the fiber has a surface density of 520 ± 30% g / m ² , and the shell is 70 ± 20% g / m ² .

The considered material can be used as heat and sound insulation in construction, in the automotive industry, for thermal insulation of industrial equipment and pipelines at an insulated surface temperature of -50 ° C to + 80 ° C, as well as for filtering off gases from various chemical industries.

However, this material is not intended for use at high temperatures from 130 ° C, since its protective shell made of non-woven polypropylene changes its physicochemical properties and at the same time is a fire hazardous and combustible material. Also, at high temperatures from 130-200 ° C, the shell of the material emits harmful substances formed during the decomposition of polypropylene: organic acids, unsaturated carbohydrates, acetaldehyde. In addition, the considered material has a limited shelf life due to the fact that the non-woven polypropylene casing decomposes within 10-12 months under the influence of ultraviolet radiation and open air.

Thermal and soundproofing and filtering material according to RF patent No. 13763 (published on May 27, 2000), thermal and sound insulation and dust-proof material according to RF patent No. 175133 (published on November 22, 2017), also containing a glass fiber cloth enclosed in a double-sided shell, have similar disadvantages made of non-woven polypropylene.

Known heat-insulating and sound-insulating material (RF patent No. 134554, published on November 20, 2013), taken as the closest analogue to the claimed solution, containing a fiberglass cloth and a protective double-sided glass fabric shell, while the material has a surface density of 700-10000 g / m ² . As a web of glass fiber cloth can be used IPA-T-1000 with a basis weight of 1000 g / m ² web IPS-T-2300 with a surface weight of 2300 g / m ^2, E-IMP fabric surface weight of 800-3000 g / m ^2, and as a shell of glass may be used TG-600 glass fabric with a surface density of 600 g / m ^2, TG-800 with an areal density of 800 g / m ² ET-1100 with a basis weight 1100 g / m ^2.

This material has increased thermal insulation properties and can be used in the temperature range from -200 ° C to + 800 ° C. The tensile strength of the material is 3.45 MPa. Thermal conductivity of glass fiber mats (at 25 ° C, W / (m⋅K) at surface density is: 1000 g / m ² - 0.041, 2300 g / m ² - 0.038, 4600 g / m ² - 0.030. 63 Hz - 18 dB, at 125 Hz - 16 dB, at 250 Hz - 30 dB, at 500 Hz - 25 dB, at 1000 Hz - 19 dB, at 2000 Hz - 10 dB, at 4000 Hz - 36 dB.

However, the disadvantages of the considered material are its inhomogeneity and unstable thickness in different parts of the roll, which during operation does not allow providing the necessary performance in terms of heat, sound, vibration insulation on the entire surface covered with the material.

The technical problem of this utility model is the creation of a sound-proof and heat-insulating material that expands the line of similar products on the market and has increased heat, sound, vibration properties.

The technical result of the utility model is the implementation of the specified purpose.

The technical result is achieved by using a sound-insulating and heat-insulating material containing a fiberglass sheet and a protective double-sided glass fiber cladding, while the fiberglass sheet has a surface density of 2500 ± 10% g / m ² , and a double-sided glass fiber cladding has a surface density of 225 ± 20% g / m ² .

The use of a fiberglass cloth (filler) with a surface density of 2500 ± 10% g / m ² and a double-sided fiberglass shell with a surface density of 225 ± 20% g / m ² provides a combination of thin material (12-16 mm) and high coefficients of heat, sound and vibration isolation.

When researching the claimed, it was found that with such a combination of the density of the canvas and the double-sided shell, the insulation index R _{w of} airborne noise between two rooms or other rooms (conversations, shouts, music, the sound of a radio receiver, TV) is at least 48 dB (see Table 1) , and the index of improvement in impact noise insulation ΔL _nw is not less than 32 dB (see Table 2), which meets the highest requirements of SNiP-23-03-2003.

The claimed material can be used in the construction of bass traps, acoustic screens and curtains.

When using a cloth (filling) of fiberglass with a surface density of less than 2500 ± 10% g / m ² , and a double-sided shell made of glass cloth with a surface density of less than 225 ± 20% g / m ^{2, the} claimed material has insufficient reinforcing ability, which leads to the loss of the filler from the shell. At the same time, the R _w insulation index and the impact noise insulation improvement index ΔL _nw do not meet the requirements of SNiP-23-03-2003.

In the case of using a cloth (filling) of fiberglass with a surface density of more than 2500 ± 10% g / m ² , and a double-sided shell made of glass cloth with a surface density of more than 225 ± 20% g / m ^{2, the} claimed material becomes denser, which contributes to the deterioration of acoustic performance, and also leads to winding of the material when drilling and complicating the installation and fastening of the material. At the same time, the R _w insulation index and the impact noise insulation improvement index ΔL _nw also do not meet the requirements of SNiP-23-03-2003.

As fiberglass with a surface density of 2500 ± 10% g / m ² , used to obtain a double-sided shell of the claimed material, the material IPS-T-2500 can be used.

The materials T-11, T-10, T-13, T-23, E3-230 and others can be used as fiberglass with a surface density of 225 ± 20% g / m ^{2, used to obtain the filling of the claimed material.}

The material can be used in the temperature range from -200 ° C to + 800 ° C without changing its physical and chemical properties and the release of harmful substances. Moreover, it is non-combustible and fireproof material.

An important advantage of the claimed material is that it is made entirely of fiberglass, the decomposition period of which is 1000 years. Over a long service life, the material provides the necessary heat, sound, vibration insulation properties that do not change with any temperature drop in the environment and the use of the material in any climatic zone. Also, the material does not rot, it is resistant to moisture and the occurrence of mold and mildew.

FIG. 1 shows the structure of the claimed material.

FIG. 2 shows an image of the claimed material.

Cloth 1 made of fiberglass is lined on both sides with a sheath 2 of fiberglass, which has a black color (Fig. 1, 2).

The thickness of the material is 12-16 mm.

The material is rolled up.

Before sewing the web (filler) into a double-sided casing, the fiberglass is calibrated on a carding machine to give the material uniformity, the same thickness and density in all sections of the roll.

The material is made in black only for use in exhibition rooms, cinemas, theaters, concert halls, etc. open without the use of additional shells, so that it does not distort colors, does not give glare and does not attract the attention of the audience.

The inventive material has a convenient installation and attachment to surfaces: when drilling, there is no winding of the fibers of the web (filler) and the sheath on the tool.

As a result, the claimed material makes it possible to provide the necessary properties for a long service life, while it is inconspicuous, easy to install and use, which advantageously expands the line of similar products on the market.

Claims (1)

Sound insulation and thermal insulation material, characterized in that it comprises a web of glass fiber and a protective duplex coating of glass fibers, wherein the web of glass fiber has a surface density of 2500 ± 10% g / m ^2, and the double-sided shell fiberglass has a basis weight of 225 ± 20% g / m ² .

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