DE4015505A1 - GEOTEXTILE FILTER MATERIAL - Google Patents

Description

The present invention relates to a geotextile filter material or containing a consolidated nonwoven fabric made of synthetic fibers, at least one Part of the synthetic fibers are hollow fibers.

Geotextile filters are fabrics made of textile fibers, which are called areal Filters are used in the geotechnical sense. Such a filter has e.g. B. the task of the underground before rinsing and rearrangements as a result to protect from groundwater or seepage water currents or against eroding To secure influences of currents and waves of water.

A geotextile filter must be on the ground with regard to its filter effectiveness be coordinated on which it lies directly. Its effective opening width on the one hand, must guarantee the security of the reason for suffusion, d. H. the Prevent migration of fine-grained soil components; but he should on the other hand not as a liquid barrier and in special cases as a drainage layer Act. This results in strict requirements for its filter effectiveness, for example and dimensional stability under load, its maximum traction, its Maximum tensile strength elongation, its behavior under dynamic stress, its Friction values in the floor. This filter-technical and mechanical stability must also be maintained over a long period of time and last but not least to manufacture the filter from a minimum of fiber material for price reasons be. There are, for example, detailed rules for the dimensioning of geotextile filters from the "Information sheet for the use of geotextiles in earthworks" section 5.2 ff. Of the Research Society for Roads and Traffic and from the "Information sheet on the use of geotextile filters on waterways" of Federal Institute for Hydraulic Engineering.  

Synthetic fibers are suitable for the production of geotextile filter materials especially because of their rotting resistance and thus their high long-term stability. Solidified materials are particularly suitable as filter-forming fabrics Filament nonwovens, so-called spunbonds, because these are special on the one hand are inexpensive to manufacture, on the other hand because of the tangle of the filaments also almost unsurpassable advantages with regard to the isotropy of their mechanical Have properties. Nonwovens can also be used with a targeted Generate anisotropy of their mechanical properties by looking at it Provides fiber shares that run in certain preferred directions, such. B. Carding fleece. It has been shown that the combination of the further is often very difficult properties described above, which are required for geotextile filters with Realize fleeces of economically acceptable layer thickness. Often, the in Combination of permeability and mechanical to be requested in individual cases Strength only with relatively thick and therefore also heavy and expensive nonwovens can be achieved.

Surprisingly, it has now been found that high requirements can be achieved to the filter material with nonwovens much lower basis weight and to satisfy with much less material, if that Fiber material of the nonwoven contains hollow fibers. One object of the present invention thus relates to a geotextile filter material, consists of a consolidated nonwoven made of synthetic fibers or contains one, at least some of the synthetic fibers being hollow fibers are.

The proportion of hollow fibers in the nonwoven that gives it the desired combination of properties mediates, u. U. surprisingly small. There is often a noticeable economic and technical advantage of the invention geotextile filter material already with a nonwoven in which only 10% of the synthetic fibers are hollow fibers.  

As a rule, it is advisable to use a geotextile filter material in whose nonwoven is 50-100% of the synthetic fibers hollow fibers, the the highest technical requirements are naturally met with nonwovens can be made of 100% hollow fibers.

The titer of the synthetic fibers of the nonwoven fabric of the filter material according to the invention are in the usual range for geotextile filter materials. They are usually between 0.5 and 50 dtex, preferably in Range from 2 to 20 dtex. From case to case, it may be appropriate to use mixed titers, in particular Non-woven fabrics that are not 100% hollow fibers can contain hollow fibers and full fibers have different titers. The synthetic fibers can advantageously be continuous fibers or staple fibers with stack lengths of 2-20 cm. However, it is also possible to use nonwovens that both Continuous and staple fibers included. So z. B. in many cases the desired combination of properties Filament nonwoven (such consists of continuous filaments) by mixing a suitable proportion of hollow staple fibers. Mixtures of hollow and non-hollow staple fibers can of course also be used to be deposited into a spunbonded nonwoven.

The synthetic fibers contained in the nonwovens can be one or more Contain voids, and the voids can be in the direction of the fiber axis be short to very short or extend the entire length of the fiber. Accordingly, hollow fibers in the sense of this invention are both foam fibers and also hollow fibers with one or more over larger fiber sections or cavities extending over the entire length of the fiber. The void fraction of the synthetic fibers is essential. Especially synthetic fibers are suitable for the nonwovens of the filters according to the invention, whose void fraction is 3-40% by volume, preferably 5-20% by volume. Synthetic fibers suitable for the filters according to the invention usually consist of spinnable polyamide, polyethylene, polypropylene or polyester.  

Synthetic fibers made of polyester, in particular polyethylene terephthalate, are preferred. The bonding of the nonwovens of the filter according to the invention can in principle be carried out in done in any known manner. So it is z. B. possible, the fleece by a Solidify binder with which the fleece is impregnated and then is cured or the binder can be a melt binder which, for. B. in Powder form or in the form of binder threads is incorporated into the fleece, and which solidifies it to the nonwoven under the influence of heat. The nonwoven can also be consolidated to form a nonwoven by calendering take place, partly mechanical felting of the filaments, partly one autogenous welding occurs at the crossing points.

Filters made from nonwovens according to the invention have proven particularly advantageous proven that have been mechanically consolidated. Under a mechanical Solidification is e.g. B. to understand the needling, but also z. B. hydrodynamic Solidification, as described for example in EP-A 01 08 621. They are characterized by a particularly good adaptability to the surface out.

Another preferred embodiment of the filter material according to the invention has a spunbond as the nonwoven, in particular a bonded by needles Spunbond on. The weight per unit area of the nonwovens of the filter material according to the invention is preferably 50-2500 g / m², particularly 200-1500 g / m². Such embodiments of the invention are also particularly preferred Filter material in which several of the preferred features mentioned above are combined.

The present invention also relates to a method for producing the invention geotextile filter material by depositing synthetic Continuous and / or staple fibers in a known manner on a moving Support, subsequent solidification and, if necessary, combination with another Textile material, which is characterized in that at least part of the stored synthetic fibers are hollow fibers. In the manufacture of spunbonded nonwovens, which according to the invention have a share of  Containing hollow fibers can be a mixture of hollow and non-hollow staple fibers dry in the desired mixing ratio in a manner known per se or deposited to the nonwoven fabric by a wet laying process and then be solidified. However, it is also possible to add nonwovens made from endless fibers and staple fibers generate by adding an admixture of the when filing the continuous fibers Provides staple fibers. In this case, either the continuous fibers or the staple fibers consist entirely or partially of hollow fibers. When producing the nonwovens using the spunbond process, it is also possible Mix full fibers and hollow fibers during storage. You can do this, for example the hollow fibers are manufactured separately and from fiber reservoirs, e.g. B. Coil frames, pulled and through blowing nozzles in the directed towards the tray Fiber stream of the full fibers are fed, or the spinning beams, which for Production of the nonwoven filaments can serve, in addition to spinning openings for full fibers also have spinning orifices for hollow fibers, the ratio of different spinning openings and the amount of filaments spun from them the desired ratio of solid and hollow fibers in the invention Filter matches. As a rule, filters according to the invention are used to manufacture deposited at least 10% hollow fibers. The proportion of deposited hollow fibers is preferably 50-100%, and to achieve the maximum effects are 100%, the deposited Fibers Hollow fibers.

The fleece is consolidated in a manner known per se using a binder, or a melt binder or by calendering or, preferably, through needles. Binder can e.g. B. polymer solutions or dispersions or latices, the can be applied to the nonwoven fabric by impregnation or spraying and the after evaporation of the liquid phase at the crossing points of the filaments Form "tying sail". However, thermoset binders can also be used, if necessary with a Heat treatment, harden and fix the fiber crossing points. Also Melting binders, e.g. B. in the form of powders or preferably in the form of  Binder fibers are incorporated into the nonwovens, and that when the fleece is heated converge above their melting point at the fiber crossing points and Form binding points which, after cooling again, solidify the nonwoven, can be used with good success.

A similar solidification can be achieved by the "autogenous" welding of the Achieve nonwoven filaments at their crossing points if you use the nonwoven calendering close to the melting temperature of the nonwoven filaments submits.

Mechanical solidification is preferred. No chemical occurs here or thermal loading of the filament material, so that the advantageous physical properties of the filaments due to their manufacture, e.g. B. conveyed by rapid spinning and stretching operations, undiminished be transferred to the nonwoven material.

The geotextile filters according to the invention can either be made from a nonwoven fabric of the type described above or they can be in addition to the nonwoven fabric still other textile materials, such as. B. fabric or a textile additional layer (e.g. a drainage layer). With these additional layers the nonwoven combines into a textile composite material, the additional is able to solve geotechnical tasks and its filter effectiveness in is based essentially on the properties of the nonwoven material.

Claims (13)

1. Geotextile filter material consisting of or containing a nonwoven fabric made of synthetic fibers, characterized in that at least some of the synthetic fibers are hollow fibers. 2. Geotextile filter material according to claim 1, characterized in that at least 10% of the synthetic fibers are hollow fibers. 3. Geotextile filter material according to at least one of claims 1 and 2, characterized in that 50-100%, preferably 100%, of the synthetic fibers Are hollow fibers. 4. Geotextile filter material according to at least one of claims 1 to 3, characterized in that the cavities of the hollow fibers over the whole Extend fiber length. 5. geotextile filter material according to at least one of claims 1 to 4, characterized in that the void fraction of the synthetic fibers 3-40 vol .-%, preferably 5-20% by volume. 6. geotextile filter material according to at least one of claims 1 to 5, characterized in that the synthetic fibers of polyester, preferably consist of polyethylene terephthalate. 7. geotextile filter material according to at least one of claims 1 to 6, characterized in that the nonwoven fabric is consolidated by a binder. 8. geotextile filter material according to at least one of claims 1 to 6, characterized in that the nonwoven fabric is mechanically consolidated. 9. geotextile filter material according to at least one of claims 1 to 8, characterized in that the nonwoven is a filament nonwoven, a so-called spunbond, is.   10. A method for producing a geotextile filter material of claim 1, by depositing synthetic continuous and / or staple fibers in themselves known way on a moving surface to a nonwoven fabric, subsequent Consolidation and, if necessary, combination of the nonwoven with another textile material, characterized in that at least part of the filed Synthetic fibers are hollow fibers. 11. The method according to claim 10, characterized in that at least 10% of the deposited synthetic fibers are hollow fibers. 12. The method according to at least one of claims 10 and 11, characterized characterized in that 50-100%, preferably 100%, of the deposited fibers Are hollow fibers. 13. The method according to at least one of claims 10 to 12, characterized characterized in that the consolidation of the nonwoven using, one Binder or preferably mechanically.