DE10047777A1 - Production of heavy nonwovens, and the like, uses a hydrodynamic bonding action with additional fluid extraction by suction/blowing, to give an effective bonding of thick materials - Google Patents

Abstract

The heavy textile material, as a nonwoven or textile structure, is bonded by a hydrodynamic action. The fluid used by the jets is extracted additionally from the fabric by suction, or a blowing action, together with mangling if required. The technique can also be used to bond layers together of different densities into a stable material.

Description

The invention relates to a method for producing texti ler fabrics with preferably high basis weights from primarily organic fibers through a hydrodynami solidification.  

It is known to be both inorganic and organic Fibers of different lengths thanks to a hydrodynamic Solidification to process flat structures. there the fibers are formed into a non-woven fabric and then solidified hydrodynamically. The individual fibers intertwined, hooked and together interwoven, creating the desired strength of the area image is achieved.

The hydrodynamic consolidation can be used during manufacture of the fabric once or several times in succession and done on one or both sides.

It has also been proposed to increase the thickness by repeating the hydrodynamic consolidation with the addition of additional fiber material. This thickening by repeated "Aufnade development" are limited, however, because the forces to be applied to the needling of the fibers and the suction of the water are so great that the process becomes uneconomical. So far, structures of 400 g / m ^{2 could} be achieved by hydrodynamic consolidation processes.

In known methods, the thickness or the maximum Area grammage of the fleece depends on the extent to which liquid medium used for solidification by the vacuum can be sucked off.

The thicker and the denser the fleece, the larger it must be the negative pressure applied to the liquid medium to get the fleece vacuumed.  

If the liquid medium is not completely sucked off, so there may be a liquid build-up on the surface. This hinders the subsequent consolidation stages.

The invention has for its object the hydrodynami strengthening in the manufacture of fabrics with preferably high basis weights and large fleece thickness ken to use.

According to the invention the object is achieved in that consolidating fiber fleeces or the textile surfaces, best Made of fibers, including fibers with air pockets, fleeces or other textile structures, such as knitted fabrics or braids or combinations of the aforementioned components or subjected to hydrodynamic consolidation several times be and in addition to the usual suction of the liquid Medium an additional removal of the liquid medium takes place during the hydrodynamic consolidation.

The additional removal of the liquid medium takes place characterized in that in addition to the usual suction before or after the Hardening beams effective suction devices become. Slit nozzles can be provided as suction devices hen.

Furthermore, it has been found that removal of the liquid medium also through targeted use of compressed air becomes possible. The liquid medium, for example blown off.  

The additional removal of the liquid medium by Suction or compressed air can not only in solidification direction, but also against the direction of consolidation of the fabrics.

The additional suction of the liquid medium can be done once or several times before or after the respective festival levels.

Another variant for the additional removal of the liquid medium is given by the fact that in addition or separately before or after each hydrodynamic Solidification squeeze devices are provided.

It is within the scope of the invention that the individual variants th the additional removal of the invention liquid medium can be used in combination.

In another variant, this is the case with the nonwoven bond liquid medium used by adding gas, such as air reduced. The entry of a gas-enriched liquid keitsstrahles takes place in the form that the liquid contains the gas in the center, which does not escape can. In the event of an impact on the surface to be solidified the gas for loosening the fleece through swirls lung, which means better suction of the liquid medium allows. As a result, fabrics with higher Basis weights are solidified. By regulating the Solidification beam with regard to the proportion of liquid The medium or gas has a wide influence on the Quality of the solidified fabric possible.  

By reducing the proportion of liquid medium and the Loosening of the fabric to be manufactured are Saving on the suction and drying generator to be used given.

The principle of registration of a gas-enriched Liquid jet can be, for example, by the Practice the use of double-walled nozzles.

Steam is also conceivable as a solidification medium, which through the nozzle bar targeted to the nonwoven fabric is judged.

As a result, fabrics are obtained which can have thicknesses of up to approx. 2 cm. The sheet-like structures obtained according to the invention can have basis weights of up to 3000 g / m ² and, in the construction, show surfaces which are highly compressed, while the nonwoven core remains voluminous.

In the manufacture of the fabric according to the invention can the amount of fiber presented in one step and the total subject amount of fiber to hydrodynamic consolidation be, the liquid medium by the usual Absau tion is removed by an additional removal of the liquid medium is supported.

The fabric can also be made in this way that only a subset of the fibers is presented, which is only pre-consolidated in one or more stages. In the pre-fleece obtained, more can be done after each stage Amounts of fibers are added. This makes it possible  the layer structure of the fleece to meet individual requirements to adapt. So it becomes possible to use different fibers or also different fiber lengths or fiber thicknesses in the individual stages. The loose structure will continued until the desired material thickness is reached. The loose structure of the preliminary fleece allows the use of the usual hydrodynamic hardening process. At the The usual suction is sufficient for the loose structure of the preliminary fleece of the liquid medium. The pre-fleece thus obtained is now the hydrodynamic in the manner according to the invention Subject to solidification and not only the liquid medium by suction, but also in the inventive Way removed from the fabric obtained.

The additional removal of the liquid medium can only one consolidation stage can be provided, as can all or more of the consolidation stages used the devices for the additional removal of the liquid be provided with the medium.

The hydrodynamic consolidation can be done on both sides occur simultaneously, it is also possible that the Solidification first on one side and then on the other ren side.

The consolidation of the two sides is carried out one after the other taken, so it is possible to solidify on both Operate pages with different intensities. In order to you get a flat structure, the surface with under different properties z. B. has strength values.  

The use of the respective variant depends on the fibers used and in particular the desired one fabric to be manufactured.

In the method according to the invention are preferred Fibers of organic material are used, which are advantageous show a high matting effect. Such Fibers can be certain bast fibers.

When using feltable fiber types or fi brilliant fibers has surprisingly been shown that when presenting relatively open textile structures, the In addition to non-woven fabrics, open-knitted fabrics or Ge be knitted during hydrodynamic consolidation at the Fiber or yarn crossing points one through the fibrillie r / matting effect caused additional hardening supply takes place. This effect creates when there is too little stitch textile structures tend to stabilize the textile surface che. In other words, unstable open textile surfaces obtained improved by the inventive method Strengths and new optics.

Depending on the type of fiber, according to the invention Processed fabric strongly compressed Have outer surfaces and a voluminous internal structure.

Since the last removal of the liquid medium, that is, which takes place immediately before the dryer, for the Voluminö the middle of the fleece can be responsible for feltable fibers due to high pressure during removal high strength of the liquid medium a fabric can be achieved.  

Such fabrics in particular show an excellent ab sorption capacity. You can therefore go for the manufacture of diapers are used as well as materials for Absorption of pollutants such. B. in oil spills.

The fiber length of the fibers used is not Set limits. It can be both long and short Fibers are processed. The procedure is not the same limited to normal fiber thickness, it can also be coarse are processed, the z. B. in compression could not be processed by the known needling.

The fibers can be staple fibers, cut fibers, fiber wool le, short fibers or continuous fibers.

Dusts, in particular fiber dusts and / or short fa be added during the manufacturing process.

The dusts and / or short fibers can be caused by production be, but in the manufacture of the fibers used also when processing the nonwoven itself as waste pro you incur. But also the addition of foreign dust and / o Foreign short fibers are possible. The application of the hydrody Namely solidification shows the advantage that the ver work-related environmentally harmful short fiber dust from the rays of the liquid medium are bound. Likewise, the one fabrics are added to fabrics.  

Before or during the hardening process, additional strangers can be present substances are added to the fibers. So there is, for example, the possibility of fillers, dyes fe, flame retardants u. Ä. add to the finished Give product special properties, such as color, Grip u. ä.

The fabrics manufactured according to the invention are suitable also excellent as insulation material.

The fabrics obtained according to the invention can be in their diffusion properties the specific application offer customize. By adding appropriate agents, such as flame retardants, dyes, water repellants teln to the fibers used generally or by Ein set in certain layers are desired properties to reach.

The flat structures in the floor area can also do this are used, such as in drywall where plaster walls have been used up to now Find application. But also the production of wallpapers or roofing underlayment is given. In other words, the fabric according to the invention can be excellent in ge entire house construction can be used.

The fabric according to the invention also adjusts usable starting product for compression molding.

During compression molding, the textile fabric is under Printing u./o. Temperature pressed into the desired shape. The existing strength is increased because the  Molding the voluminous middle part of the invention textile fabrics is further compressed. Even that Compression molding with sharp-edged concours is possible.

Claims (21)

1. Process for the production of textile fabrics with preferably high basis weights by hydrodynamic consolidation, characterized in that the nonwoven fabric or textile structure is subjected to hydrodynamic consolidation in addition to the usual removal of the liquid medium by additional suction devices in the formation of the surface formation Will get removed. 2. Process for the production of textile fabrics with preferably high basis weights due to hydrodynami strengthening, characterized in that the Nonwoven or textile structure of a hydrodynamic Consolidation is subjected to the next to the übli cher removal of the liquid medium by this too additional squeezing when forming the surface area the is removed. 3. Process for the production of textile fabrics with preferably high basis weights due to hydrodynami strengthening, characterized in that the Nonwoven or textile structure of a hydrodynamic Consolidation is subjected to the next to the übli cher removal of the liquid medium by this too additional blowing off when the fabric is formed Will get removed.   4. Process for the production of textile fabrics with preferably high basis weights due to hydrodynami strengthening, characterized in that the Nonwoven or textile structure of a hydrodynamic Consolidation is subjected to the next to the übli cher removal of the liquid medium by this additional suction devices and / or additional Squeezing and / or blowing off when forming the surface Chengebildes is removed. 5. Process for the production of textile fabrics with preferably high basis weights due to hydrodynami strengthening, characterized in that the Nonwoven or textile structure of a hydrodynamic Solidification with a liquid enriched with gas Medium in which the gas jet passes through the liquid medium is included, subjected and at the next the usual removal of the liquid medium this by additional suction devices and / or additional squeezing and / or additional blowing off the formation of the fabric is removed. 6. The method according to any one of claims 1 to 5, characterized characterized in that the additional removal of the river medium before the consolidation stage (s). 7. The method according to any one of claims 1 to 5, characterized characterized in that the additional removal of the river medium after the solidification stage (s) follows.   8. The method according to any one of claims 1 to 7, characterized ge indicates that the hydrodynamic consolidation staged. 9. The method according to any one of claims 1 to 7, characterized ge indicates that the hydrodynamic hardening in several stages in succession. 10. The method according to at least one of claims 1 to 9, characterized in that the additional squeezing the water takes place after each solidification process. 11. The method according to at least one of claims 1 to 9, characterized in that the additional squeezing of water only in selected consolidation levels he follows. 12. The method according to at least one of claims 1 to 11, characterized in that the hydrodynamic Verfe on both sides at the same time. 13. The method according to at least one of claims 1 to 11, characterized in that the hydrodynamic Verfe on both sides one after the other. 14. The method according to at least one of claims 1 to 11, characterized in that the hydrodynamic Verfe successively and on both sides with under different pressures.   15. The method according to at least one of claims 1 to 14, characterized in that before final compaction Layer build-up by pre-compressing the fibers a nonwoven is carried out under greatly reduced pressure. 16. The method according to claim 5, characterized in characterized in that air is used as the gas becomes. 17. The method according to at least one of claims 1 to 16, characterized in that the fabrics according to the hydrodynamic consolidation with additional removal of the liquid medium of an additional surface subject to hardening by heat and / or pressure become. 18. Fabric obtained according to the method of claims che 1 to 17, characterized by a layer structure with different densities. 19. The sheet material according to claim 18, characterized by solidified surfaces and voluminous core. 20. Flat structures using feltable fibers according to one of claims 18 and 19, characterized through solidified surfaces and solidified voluminö its core.   21. Fabric according to one of claims 18 to 20, characterized by weights per unit area up to 3000 g / m ² .