BE878854A - METHOD FOR PRODUCING ACOUSTIC BARRIERS - Google Patents

Description

       

  Method of making acoustic barriers

  
The subject of the present invention is a method of producing acoustic barriers.

  
. The invention may in particular be suitable for the acoustic insulation of premises and living rooms, but it can also be envisaged for the production of acoustic barriers of any other type, such as for example noise barriers along

  
traffic lanes.

  
The realization of acoustic barriers finds, indeed, its application in very many fields where one wishes to prevent that sounds and noises produced in a place propagate towards another place. This is particularly the case in apartment buildings, where owners of sound systems would like to be able to use their equipment at their optimum speed without disturbing their neighbors.

  
There are currently certain materials allowing the realization of acoustic barriers in such cases, but in practice, these materials have been shown to be unsatisfactory, and often have the drawback of increasing the risk of fire.

  
It was also known that water by itself has a very interesting noise muffling power, but no really practical system has been proposed, until now, in which this property of water is implemented.

  
In accordance with the present invention, such a system has now been designed allowing the production of acoustic barriers giving results superior to known systems, while implementing very simple and safe techniques.

  
The new system, according to the invention, for producing an acoustic barrier provides for forming a screen by means of volume units, delimited by walls, and filled with a liquid capable of damping the acoustic waves, arranged in mutual contact in at least one thickness.

  
According to a feature of the invention, the liquid used is preferably water or an aqueous solution.

  
We can for example consider solutions of water and alcohol or water and salt, in order to make

  
the frost resistant system.

  
According to another feature of the invention, said volume units can in particular be arranged so as to entirely cover a

  
surface such as a wall, a wall, a ceiling, a

  
floor, door, etc ...

  
 <EMI ID = 1.1>

  
invention, these volume units filled with liquid can in particular be constituted by

  
packaging containers with parallelepiped shape

  
right, arranged side by side.

  
Such packaging containers may for example consist of a sheet of paper, cardboard and / or plastic material folded and suitably sealed.

  
The containers marketed by TETRA PAK RAUSING & CO. KG under the names

  
TATRAPAK and TATRACUB are particularly well suited for the implementation of the system

  
according to the invention.

  
In this embodiment of the invention, said packaging containers filled with the appropriate liquid, can in particular be directly fixed to the surface to be soundproofed, such as a wall, a door or the ceiling of a living room. , for example by simple bonding.

  
In a second embodiment, of the invention, the volume units filled with liquid can in particular be constituted by rigid or flexible tubes or pipes, the ends of which are plugged, arranged side by side.

  
This embodiment is particularly suitable for forming acoustic barriers on the ground, and in this case the tubes or pipes are preferably laid on the ground and covered with a floor or covering, the walls of said tubes being strong enough to support said floor or coating as well as its load.

  
According to the invention, it is possible in particular to use for this latter embodiment, common type fire hose, which is spread side by side on the ground, which is filled with water and which is covered

  
of a floor or covering.

  
In a third embodiment of the invention, the volume units filled with liquid can in particular be constituted by hollow spheres filled with liquid, the space between two support surfaces of which is filled.

  
In this embodiment, one of said surfaces can in particular be constituted by a fixed surface such as a wall, a wall, a

  
floor, etc., while the second surface is formed by a partition parallel to the wall or the wall,

  
a protective floor, etc.

  
According to a complementary feature of this embodiment, the hollow spheres, filled with liquid, in particular water or an aqueous solution

  
 <EMI ID = 2.1>

  
such as polyethylene.

  
Other particularities and details of the invention will appear on reading the following description of some embodiments, shown purely by way of illustration in the drawings appended to this memo.

  
In these drawings:
- Figure 1 shows, in perspective, the realization, according to the invention, of an acoustic barrier by means of parallelepipedic packaging containers, on a wall, and of an acoustic barrier by means

  
fire hose on the ground.

  
- Figure 2 shows, in section, the embodiment, according to the invention, of an acoustic barrier by means of hollow spheres. Figure 1 is in fact a perspective view of part of an apartment, designated as a whole by the reference 1, soundproofed by the method of the present invention.

  
The walls 2 of room 1 are soundproofed by means of parallelepipedic packaging containers 3, such as containers of the TETRAPAK type (TETRAPAK is

  
a trade mark), filled with water, appropriately attached to said walls 2, for example by gluing

  
direct.

  
The acoustic barrier 4, thus formed, having an inner surface 5 of relatively fragile plasticized cardboard, it can be covered with panels

  
protective 6 in wood or synthetic material,

  
which will constitute the interior walls of the

  
room 1.

  
The production of an acoustic barrier door, not shown in the drawings, will be done in the same way, by fixing, for example, containers 4 in the interior space of a hollow door with two panels.

  
The floor 7 of the room 1 is soundproofed by means of flexible pipes 8, with resistant walls, such

  
only fire hoses, closed at their ends

  
1 9 and filled with water, placed on the ground 7, so as to form a completely

  
covered with pipes.

  
On the surface 10 of fire hoses 8

  
thus formed, a protective floor 11 is placed, on which the occupants will circulate, and on which

  
the furniture in room 1 will be installed.

  
The expression "floor" as used

  
in the context of this invention is of course,

  
not limited to floors formed of wooden planks, and these may consist of coverings or coverings

  
of any other type, including panels

  
in reinforced concrete, fiberglass or synthetic *.

  
Figure 2, for its part, shows another embodiment of an acoustic barrier, more suitable for soundproofing walls and floors.

  
In this embodiment, a panel 21 is fixed, in any manner, at a desired distance from a wall or floor 22, and the space 23 between the

  
panel 21 and the wall or ceiling 22 is filled with

  
small balls 24, consisting of hollow spheres,

  
more particularly in polyethylene, filled with water.

  
A suitable dimension for the balls 24, used in this embodiment of the invention, is approximately 2 to 3 cm in diameter, although any dimension which allows several layers of balls to be introduced into the space 23 between the double panel 21 and the wall / ceiling 22, may be suitable.

  
In order to reduce the transmission of sounds through the interstices between the balls, it is desirable

  
to fill these gaps with a fine filling material, such as sand (not shown in the figure).

  
It is obvious that the invention is not limited in any way to the specific features and embodiments described above, and that numerous modifications may be made to it by man.

  
by profession without leaving the framework of the invention as

  
as defined in the following claims.

CLAIMS

  
1.- Method for producing an acoustic barrier, characterized in that a screen is formed by means of volume units, delimited

  
by walls, and filled with a liquid capable of damping the acoustic waves, arranged in

  
 <EMI ID = 3.1>


    

Claims (1)

2.- Method according to claim 1, characterized in that the liquid used is water or an aqueous solution. 3 .-- Method according to either of claims 1 and 2, characterized in that said volume units are arranged so as to entirely cover a surface such as a wall, a wall, a ceiling, a floor, a door, etc. 4.- Method according to either of claims 1 to 3, characterized in that said volume units consist of containers <EMI ID = 4.1> side by side. 5.- Method according to claim 4, characterized in that said packaging containers consist of a sheet of paper, cardboard and / or plastic material folded and sealed appropriately. 6.- Method according to either of claims 4 and 5, characterized in that said packaging containers are fixed on said surface or on a support panel. 7.- Method according to either of claims 1 to 3, characterized in that said volume units consist of rigid or flexible tubes or pipes, the ends of which are plugged, arranged side by side. 8.- Method according to claim 7, specifically adapted for the production of an acoustic barrier on the ground, characterized in that said tubes or pipes are placed on the ground and covered with a floor or covering, the walls of said tubes being sufficiently resistant. to support said floor or covering as well as its load. 9.- Method according to claim 8, <EMI ID = 5.1> common type of fire, spread side by side on the ground, fill with water and cover with a floor or covering. 10.- Method according to either of claims 1 to 3, characterized in that said volume units consist of hollow spheres filled with liquid, which is filled with the space between two support surfaces. 11.- Method according to claims 3 and 10, characterized in that one of said surfaces consists of a fixed surface such as a wall, a wall, a ground, etc., while the second surface is formed by a partition parallel to the wall or the wall, a protective floor, etc. 12.- Method according to either of claims 10 and 11, characterized in that said hollow spheres have a plastic wall, such as polyethylene. 13.- Method according to one or the other claims 10 to 12, characterized in that the interstices between the spheres are filled with a filling material, such as sand.