SK3732000A3 - Soundproofing product and method for making same - Google Patents

Abstract

The invention concerns a soundproofing product to be used on a structure vertical wall and a method for making such a product. The product comprises successively: a first synthetic foam layer to be placed on the wall to be soundproofed; a second layer made of a mixture of filler bitumen and at least one polymer, without reinforcement; and a third finish material layer for receiving a wall coating.

Description

Technical field

The invention relates to the field of sound insulation and in particular to an article intended to reinforce the sound insulation of walls, in particular vertical partitions and partitions of buildings, against noise caused by air traffic. The invention also relates to a method for producing such an insulating product.

BACKGROUND OF THE INVENTION

Inside buildings, noise is transmitted through walls and their plaster by vibrating these structures. The role of sound insulation is to reduce the transmission of noise through the building's perimeter and partition walls.

The new rules and regulations currently in force for new buildings are intended to limit noise penetration. Recently, a methodology for testing and measuring procedures to detect noise penetration from one room to another has been developed. The measured level of penetrating noise shall be less than the prescribed limit value in order to be considered as habitable.

In practice, additional acoustic insulation must be installed if the prescribed limits are exceeded.

Also, in the renovation of older buildings, it is very often advisable to improve the sound insulation properties of their parts.

Therefore, there is a great demand for efficient acoustic insulations and suitable manufacturers of such insulators that could be easily installed and occupy little space, so that the surface area of the buildings remains virtually unchanged after the necessary insulation measures have been taken.

In this respect, it should be noted that some products can absorb noise and reduce resonance in the room so that the room may not even be insulated, as the transmission of residual noise through the partition walls does not diminish. This is particularly the case with carpet or cork cladding covering the walls.

In such a case, however, the only beneficial effect of the measure for the user of the room thus treated is sound absorption.

Sound insulating products are already known which have a relatively large thickness and are made, for example, of glass wool and gypsum boards. The thickness of such products is at least 4 cm, so that these products are very bulky and awkward to handle and reduce the usable space of the rooms.

Sound insulating products of lesser thickness are also known which are supplied in the form of rolls or lining elements which are generally multilayered.

It is also worth mentioning products in the form of rigid cladding elements formed from a layer of cork particles adhering to insulated walls, an intermediate layer made of resin and mineral fillers, and finally a top layer facing the free space on which the wall is applied. facing.

This known product has the disadvantage that it is relatively heavy and has a weight per square meter of approximately 10 kg. The installation of this product is relatively time consuming, as its area is approximately 0.25 m. Also, the necessity of making a large number of joints requires a large amount of preparatory work before starting to form the wall cladding. The tiles of this system still have a relatively large thickness, which is around 8 mm.

Insulating products supplied in rolls can be glued over their entire lengths, so that the time of insulation formation is reduced compared to products supplied in the form of tiles.

Known roll products are formed from a layer of sound-insulating polyurethane foam covered with a paper backing so that it is easy to form a wall lining of such a material.

Moreover, these products are relatively light because they weigh less than 2 kg / m ³ and have a thickness of about 6 mm.

This material forms a very good base for paper wallpaper or acrylic paint. However, the foamed product has properties that are particularly suitable for sound absorption and do not appear to have any effect on noise transmission through the walls of the building.

JP-A-09029873 relates to a sound insulation product in the form of a sheet material formed of a base bitumen layer, a foam layer and a protective layer. The three layers are applied in the order of the protective layer / base layer / foam layer. The known article is intended to be laid on a floor substrate in such a way that the foam layer is facing outwards, i.e. towards a noise source, for example a person walking on the floor.

JP-A-0608170 relates to the production of polyurethane foam from recycled polyurethane foam, which is crushed into particles and agglomerated. In the production of the foam material, the crushed material and the binder are placed in a mold.

U.S. Pat. No. 5,665,447 discloses sound insulating boards comprising a central bitumen layer, coated on each side with an insulating layer of mineral fibers, in particular glass fibers, for example glass wool, and a protective layer.

The characteristics of the reduced sound transmission by these known sound insulating boards can be varied by adding different amounts of fines to the bituminous layer composition.

The products used so far to produce sound insulation are lightweight when designed to reduce reverberation time, i.e., to adjust the acoustics of the interior. On the other hand, when the insulations are designed to reduce sound transmission, i.e. they are intended for acoustic or acoustic insulation, they are difficult. None of these products is lightweight, thin and designed to effectively reduce sound transmission or sound insulation.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a sound insulating wall product which is lightweight and easy to mount while effectively reducing the sound transmission through the wall while occupying less space.

SUMMARY OF THE INVENTION

This object is solved by a soundproofing product for a vertical wall of a building according to the invention, characterized in that the product comprises a first layer of open-cell foam for insulation on an insulated wall having a thickness of between 1.5 mm and 5 mm; a mixture of resin, an additive in a limited amount, and at least one polymer having a thickness of between 1 mm and 4 mm, and a third non-bituminous layer of backing material for the wall cover.

In particular, the first layer consists of a polyurethane foam, a melamine foam, a polyester foam or a polyether foam. It may also consist of a mixture of these foamed materials, for example obtained from chopped waste foamed materials, which are agglomerated or formed into a layered formation.

The bulk density of the foam is preferably between 15 and 35 kg / m ³ for a homogeneous foam and between 150 and 350 kg / m ³ for a non-homogeneous foam.

For example, a heterogeneous polyurethane foam made especially of coarse waste particles of size 1 to 3 mm, which are agglomerated and bonded and have a bulk density of preferably 250 kg / m ³ , can be chosen for this layer.

In particular, foam material supplied by RECTIFEL under the designation RECFOAM Z250 / 2.5 having a density of 250 kg / m ³ and a thickness of 2.5, or under the designation RECFOAM U250 / 4.5 having a density of 250 kg / m ³ and of which thickness is 4.5 rom.

In another preferred embodiment, a polyester foam material having a bulk density of about 25 kg / m ^{3 may be used} .

Under these conditions, the synthetic foam layer is elastic, which is advantageous because the product can fulfill its function of sound insulation.

The second product layer has a bulk density of only between 900 kg / m ³ and 1300 kg / m ³ , these values being achieved by the addition of additives in a limited amount.

The second product layer in a preferred embodiment of the invention comprises 0 to 25% by weight of additives, between about 46% and 92% by weight of resin and between about 8% and 29% by weight of at least one polymer, especially a polymer of two monomers.

The bitumen contained in the second layer consists of road asphalt, whose penetration at 25 ° C is between 70 and 220 tenths of mm, according to NTF 66 004.

In an alternative embodiment, the resin is a deasphalted resin, a synthetic resin, or a liquid resin. However, the use of oxidized resins or natural asphalts is not advisable as these substances could deprive the bituminous mixture of elasticity. Reduction of sound transmission and thereby achieving sound insulation is achieved in the product according to the invention by converting acoustic energy into thermal energy due to the use of the viscous elastic and viscous plastic character of the product according to the invention (viscous elastic and viscous plastic effect).

In particular, the additives consist of calcium carbonate or aluminum hydroxide in the form of a low-grain powder.

The polymer blend preferably comprises atactic polypropylene (APP), isostatic polypropylene (IPP), optionally with copolymers, or styrene-butadiene styrene (SBS).

It is known to those skilled in the art that APP is obtained from the treatment of IPP waste and SBS is a product that can replace other polymers.

IPP is used to provide rigidity to the second layer of the insulating product.

When the polymers are in the form of a mixture of IPP, APP and possible copolymers, the mixture comprises the individual components of the polymer mixture in a preferred embodiment of the invention in the following amounts by weight:

between about 8% and 24% APP, between about 2.5% and 5% IPP and up to about 7% copolymers.

The presence of copolymers favorably affects the viscous elastic properties of the second article layer, which also improves the crack resistance of the material as described below.

In a particular case, when the mixture comprises copolymers, the weight amount of the additives is between 10% and 15% and the weight amount of APP is between 13% and 24%, or the weight amount of IPP is between 2.5 and 5%.

When the polymer present in the second layer is composed only of styrene-butadiene-styrene (SBS), its proportion by weight is between 8 and 15%.

The second layer of the insulating product preferably does not contain added oils.

The third layer is a top layer on which a wall finish, such as a paint or paper wallpaper, can be applied.

In particular, the thickness of the third layer is less than 0.5 mm. The third layer is made of glass or polyester fabric, paper, cardboard or metal foil.

F

This third layer is mainly made of glass fabric with a basis weight of about 60 g / m ² .

The glass fabric is preferably surface-treated and the coating layer thus formed has a basis weight preferably of about 40 g / m ² . The coating clogs all pores of the glass fabric, thus preventing the resin from passing through the glass fabric and, on the other hand, preventing penetration of the applied surface layer, for example painting into the glass fabric.

The surface treatment may also be applied to other backing layers, such as polyester fabric, cardboard or paper. In particular, the paper is impermeable to fat.

One example of sound insulation according to the invention comprises

- a first layer of RECFOAM U250 / 2,5 foam having a density of 250 kg / m ³ and a thickness of 2,5 mm,

- a second layer of 1,5 mm thickness, containing by weight 65% of road resin, the penetration of which is at 25 ° C 150 tenths of a millimeter, 18% APP,

4,5% IPP and 12,5% additives,

- a third layer of 0,4 mm thickness, consisting of a glass fabric of 60 g / m ² and having a coating of 40 g / m ² .

The sound insulating product according to the invention is fixed to the wall by means of an adhesive applied with a toothed spatula. The adhesive should not contain organic solvents.

Suitable for this product is HENKEL adhesive, marked THOMSIT K158.

The product according to the invention has been subjected to tests in which you are measured! sound insulation R, whereby the product was attached to two different partition walls, both on the prefabricated PLACOPAN partition and on the part made of gypsum square parts.

It should be noted that the prefabricated gypsum partition is formed of two thin gypsum walls with a cardboard layer between them.

These tests have shown that the product of the invention has improved soundproofing ability ranging from 2 dB to 9 dB depending on the material composition and the type of substrate.

The results are shown graphically in the attached graph of FIG. First

Fig. Fig. 1 contains two curves (a), (b) expressing the sound insulation factor R. Curve (a) represents the sound insulation in relation to the transmitted sound frequency, measured on a dry-mounted partition having a thickness of 72 mm and made up of two plasterboard faces S13 with a thickness of 12.5 mm, glued to a cardboard core having a cavity grid. The curve (b) expresses the damping of the sound transmission as a function of the frequency of the sound passing through the dry-mounted partition described in the previous section and provided with one of its surfaces with glue-fastened insulating products according to the invention.

Tests also a product whose insulating products according to the product have improved acoustically that when the insulation thickness is at least 4 cm, covered by the invention, this insulating ability of the insulation insulation product can in particular in the lower frequencies.

To explain the improved sound insulation properties of the construction provided by the product of the invention, it may be assumed that this explanation is not definitive or limiting that the second resin-containing or modified resin-containing layer allows the sound energy to be dispersed over a larger area of the first layer in the synthetic foam. it will be even better utilized in absorbing sound energy.

This leads to an improvement in the sound insulation properties by means of an insulating product which remains relatively thin.

It has also been found that the sound insulating product of the invention improves the crack resistance of a wall surface, such as a painting or paper wallpaper, to which the insulating product of the invention serves as a backing material.

The wall to which the insulation product is to be glued may be unstable. Stability may cause rupture or cracking in the insulating product and thus also in the wall finish.

It turns out that each of the three layers forming the insulating product of the invention can absorb at least a portion of the stress caused by the instability of the wall.

In these circumstances, it is possible to improve the resistance of the surface treatment of the wall attached to the product to the formation of cracks and cracks by the insulating products according to the invention.

Therefore, it has also been found that cracks up to 3 mm wide do not cause damage to the wall finish when the soundproofing article of the invention comprises a synthetic foam layer of about 2.5 mm thickness and a modified resin layer of about 1.5 mm thickness.

The glass fabric layer facilitates the attachment of wall coatings due to its adhesive properties.

In order to increase the fire resistance in a fire, a special coating may be applied to the product according to the invention during its production or after it has been fixed to the wall.

It should be noted that the very presence of the glass fabric alone provides a better fire resistance compared to other undercoats according to the invention.

Gypsum boards can be placed over the sound-insulating product according to the invention in such a way that its sound-insulating effect is not limited.

The object of the invention is also solved by the method of manufacture of the soundproofing article described in the previous section in its principle and in particular preferred embodiments.

The method relates to the production of an insulating product for insulating vertical walls of buildings, comprising successively a first layer of open-cell synthetic foam of insulated origin for placement on an insulated wall having a thickness of between 1.5 mm and 5 mm, a second layer consisting of a bitumen mixture; the amount and at least one polymer without reinforcement, the thickness of which is between 1 mm and 4 mm, and a third non-bituminous layer of backing material for the vertical wall covering of the building.

In one preferred embodiment of the method according to the invention, the insulating product according to the invention is produced as follows:

The first layer of synthetic foam material is preferably purchased directly from the supplier in rolls.

The third layer of backing material, in particular glass fabric, is also preferably purchased in rolls directly from the supplier.

The second layer, which is an intermediate resin layer, is formed by first preparing a suitable mixture and then pouring the mixture in a liquid state onto a layer of synthetic foam material or a layer of backing material. The pouring temperature is between 150 190 C and 190 ’C and is preferably around 170 C. C.

In this first variant of the exemplary embodiment, before the modified resin layer has completely cooled, an additional layer, i.e. a synthetic foam layer or a backing layer, is applied to its upper surface.

The second layer retains the adhesive character until it cools completely.

Thus, in this first exemplary embodiment, it is possible to adhere the first and third layers to the intermediate layer so that it is not necessary to use glue or other additional operations. This variant is therefore simple and economical.

In a second exemplary embodiment of the method for producing the insulating product, the second layer is allowed to cool until it solidifies.

The further layer, which is a layer of foam material or surface treatment material, can then be adhered to the other side of the second layer with a suitable adhesive.

The second layer may also be superficially heated on its free side so that the resin becomes liquid on its surface.

A further layer of an insulating product according to the invention, which is a layer of synthetic foam material or a backing material, is then applied to this free side of the second layer to form a sound insulating product according to the invention.

Claims (13)

A sound insulating product for a vertical wall of a building, characterized in that it comprises successively a first layer of open-cell foam for placing on an insulated wall having a thickness of between 1.5 mm and 5 mm, a second layer consisting of a mixture of resin, % and at least one polymer having a thickness of between 1 mm and 4 mm; and a third non-bituminous layer of backing material for the wall surface cover. Sound insulating product according to claim 1, characterized in that the foam has a bulk density of between 15 and 35 kg / m ³ for a homogeneous foam and between 150 and 350 kg / m ³ for a heterogeneous foam. Sound insulating product according to claim 1 or 2, characterized in that the first layer is made of polyurethane foam, melamine foam and polyester foam. Sound insulating product according to claims 1 to 3, characterized in that the first layer is made of polyurethane foam wastes which are crushed and agglomerated. Sound insulating product according to claims 1 to 4, characterized in that the second layer has a bulk density between 900 kg / m ³ and 1300 kg / m ³ . Sound insulating product according to claims 1 to 5, characterized in that the second layer contains at most 25% by weight of additives, between approximately 46% and 92% by weight of a resin, and between about 8% and 29% by weight of at least one polymer. Sound insulating product according to claims 1 to 6, characterized in that the resin contained in the second layer is formed by road asphalt, the penetration at 25 ° C according to NTF 66 004 being between 70 and 220 tenths of a mm. Sound insulating product according to claims 1 to 7, characterized in that the second layer comprises a mixture of atactic polypropylene APP, isostatic polypropylene IPP and copolymers in the following ratios: between about 8% and 24% APP, between about 2.5% and 5% IPP and up to about 7% copolymers. The acoustic insulating product of claim 8, wherein, when the blend is free of copolymers, the weight amount of additives is between 10% and 15% and the weight amount of atactic polypropylene APP is between 13% and 24%. Sound insulating product according to claims 1 to 7, characterized in that the second layer comprises a single polymer which is styrene-butadiene-styrene SBS in an amount of between 8% and 15%. Sound insulating product according to claims 1 to 10, characterized in that the third layer is made of glass or polyester fabric, paper, cardboard or metal foil. in · Sound insulating product according to claims 1 to 11, characterized in that the third layer is surface-treated. Method for producing an acoustic insulating product according to claims 1 to 12, intended for a vertical wall of a building and comprising successively a first layer of open-pored synthetic foam for placement on an insulated wall having a thickness between 1.5 mm and 5 mm, a second layer consisting of a mixture of resin, an additive in a limited amount, and at least one polymer without reinforcement having a thickness of between 1 mm and 4 mm, and a third non-bituminous layer of backing material on the wall cover, characterized by pouring a mixture of resin, additives and at least one polymer on the first or third layer of the insulating product and a second layer is formed having a thickness of between 1 mm and 4 mm and a further layer of the insulating product is adhered to the free side of the second layer.