BE896030A - Matting woven with strips of tufted carpet material - for geo-textile applications in soil stabilisation or civil engineering constructions - Google Patents

Abstract

Geotextile matting for civil engineering applications to stabilise soil or provide acoustic and/or mechanical damping is woven from strips of tufted carpet fabric cross woven with either other strips of carpet fabric or with textile cords, the cords being in either the warp or weft directions. Periodically, the cords may provide terminal loops for anchoring the matting. Permeable to water but not sand or gravel and combines high tear strength and elasticity for stabilising loose soil for traffic movement, or for an intermediate layer in foundations etc. Pref. the strips are cut longitudinally from tufted carpet made on shuttle-free looms.

Description

       

  "Structure usable in civil engineering

  
as a soil stabilizing material,

  
as vibration damping material or acoustic damping "The invention relates to new structures usable in civil engineering as a ground stabilizing material, as a vibration damping material or acoustic damping.

  
The use of textile materials

  
in civil engineering has recently taken a big development. By textile materials is meant the fabrics used in mats, either to consolidate any soil, or to form the substrate of a foundation, or also to form ballast or grounding carpets which are used in hydraulic works.

  
They are also used to erect beds of earth at an angle such as

  
without the intervention of the textile sheet, vertical or practically vertical walls could not.

  
be realized. These fabrics, obviously, inputrescibles, are frequently called "geotextiles".

  
It is obvious that if they allow certain works under particularly favorable conditions of execution, these "geotextiles" are of a significant cost price. They must indeed be resistant, generally permeable to water, but not

  
with sands, clays or similar grounds and, moreover,

  
it would be useful if they offered elasticity or resilience giving them great impact resistance.

These properties cannot be ob-

  
 <EMI ID = 1.1>

  
held using fabrics made from

  
of threads or ropes because these materials do not give rise, during weaving, to mats having

  
both great strength and great elasticity; they have no remarkable properties as vibration-absorbing or acoustic-damping material.

  
The invention aims to allow

  
the realization of structures usable in particular in civil engineering starting from materials which have excellent mechanical properties and which allow themselves to be worked to finally deliver mats or "geotextile" structures which are remarkably suitable for the purposes set out above or which may find application due their surprising qualities in terms of acoustic or thermal insulation, for example.

  
To this end, the structures which can be used in civil engineering are formed by the joining of textile bands, for example, by weaving, quilting, heat-sealing them to form flexible and resistant elements having the appearance of mats.

  
In a particularly advantageous embodiment of the invention, the aforementioned textile bands are bands cut from carpets obtained by the process known as "tufting".

  
Other details and advantages of the invention will emerge from the description which will be given below of structures usable in civil engineering, according to the invention. This description is given by way of example only and does not limit the invention. The reference notations refer to the attached figures.

  
Figure 1 is a plan view of a geotextile structure produced according to a particular embodiment. Figure 2 is a sectional view along the line II-II of Figure 1. Figure 3 is a sectional view similar to that of the Figure 2 but is ppl iquan t to a var ian te.

  
The structures hereinafter called "geotextiles" belonging to the type illustrated in FIGS. 1 and 2 are obtained by weaving strips of carpet (1) forming a frame with cords (2) forming a warp.

  
The carpet strips (1) provide

  
both great strength and remarkable elasticity. The combination of these two properties is obviously not found in the fabrics used until now in civil engineering. Beaching mats and fabrics used to stabilize bedrock

  
are woven according to standards and according to specific criteria. Their structure is always aligned with the need to oppose the passage of sands or similar materials while allowing the water to filter. They must generally support ballasting by stones or concrete blocks and therefore offer great resistance.

  
to tear.

  
Products produced in accordance

  
to the invention not only find application in

  
the production of civil engineering works such as those just mentioned but also as a material offering special properties due to their elasticity.

  
These properties result from the use of carpet tapes, in particular tapes from the tufted carpet industry.

  
The carpet bands which can form the warp and the weft, as shown in Figure 3, can obviously also be combined with warp ropes, as shown in Figures 1 and 2.

  
When the chain is formed by ropes, these can, from distance to distance, form so-called "anchor" loops for structures

  
of the "fascine" type, whether these are of natural or artificial origin.

  
Given that in the tufted carpet industry, it is necessary to cut, in the longitudinal direction, strips which are generally considered as worthless waste, it is particularly advantageous to be able to use this raw material to obtain geotextile products offering unsuspected technical properties or which, for

  
economic reasons, have not used until

  
this day .

  
 <EMI ID = 2.1>

  
very flexible, the geotextile structures according to the invention can find innumerable applications for fixing soil masses for the deposit of a track ballast

  
of railway to temporarily or permanently improve a site floor or basement.

  
However, because of the unlimited possibilities in terms of weaving, heat-sealing, knitting or quilting, the same structures can find applications to isolate noise or vibrations from premises, spaces covered or not etc.

  
The practically unlimited possibilities of applications are due to the high resistance properties and the resilience qualities of the products obtained by the incorporation or the joining together between them of textile bands coming from carpets, in

  
 <EMI ID = 3.1>

  
Although various examples of possible use have been mentioned above and a limited number of production methods have been described or suggested, it is understood that the invention is not limited to the forms of execution and use described above.

CLAIMS:

  
1. Structure usable in civil engineering as a stabilizing material for the ground, as a vibration-absorbing material or acoustic damper, characterized in that it is constituted by the joining of textile bands, for example by weaving, quilting, heat-sealing to form flexible elements and resistant appearing under the aspect of mats.


    

Claims (1)

2. Structure according to claim 1 characterized in that the aforementioned textile bands are carpet bands from the tuff carpet industry. 3. Structure according to claim 1 characterized in that the aforementioned textile bands are bands obtained by cutting the longitudinal edges of textile products obtained on weaving looms without shuttles. 4. Structure according to any one of claims 1 to 3 characterized in that the aforementioned carpet strips form the warp and the weft of the product. 5. Structure according to any one of claims 1 to 3 characterized in that the carpet strips form a frame while the chain is formed by strings, or vice versa. 6. Structure according to claim 5 characterized in that the ropes forming the aforementioned chain, can, from distance to distance, form anchor loops.