DE1144229B - Non-woven fibrous web - Google Patents

Description

Unwoven fibrous web There are unwoven fibrous materials made of more or less fine nonwovens of loosely connected textile fibers are known. These nonwoven webs are subjected to a gluing process, the individual fibers with each other connected or anchored. The fibers can either be in the longitudinal direction be oriented or it can be a random fiber fleece. The solidification the fibers can be made by total impregnation of the fiber fleece by means of a binder take place. A product with good longitudinal and transverse strength is obtained, but that is stiff and cardboard-like and more like paper or cardboard has as that of a fabric. To obtain a product with textile-like properties, fiber fleeces were provided with wavy or straight binder lines. These fibers, which have good softness, drapery and crease resistance have a low transverse tear strength, d. H. when the fiber is stressed in the transverse direction for fiber orientation, it bursts or tears and irregular ones arise Holes in the product.

There are also known nonwovens, the fibers of which are predominantly in the longitudinal direction aligned with the web and held together by a binder which ranks of two-dimensional figures, which are offset in rows in the longitudinal direction of the web are arranged to each other and with those of the adjacent rows at their edge Overlap lengthways and crossways. These fibers show a good transverse strength, but no or only very little elasticity in the transverse direction, low transverse elongation strength and only low softness.

The invention relates to an improved, originally woven fibrous web made of a fiber fleece, the fibers of which are also predominantly in the longitudinal direction of the web aligned and held together by a binder pattern that is rows of Has figures that are offset in rows with respect to one another in the longitudinal direction of the web are arranged and, if necessary, with those of the adjacent rows their edge overlap in the longitudinal direction, but this is characterized by that the figures are ring-shaped (circular or polygonal) and longitudinally of the web are arranged at a distance from one another which is the average Fiber length does not exceed, and which do not intersect in the transverse direction of the web.

Due to its structure, the new fiber product exhibits opposite known substances have significantly better properties, namely a special transverse stretchability, special softness, good grip, improved overall firmness and fluffiness and a particular degree of fullness or sublimity.

As mentioned, there is a special feature of the present invention in that the binder is applied in the form of rings. It is about not only about circular rings, but any polygonal figures are meant, it being essential that the binder is present on the periphery of the figures, i.e. H. the Circles, ellipses, polygons, etc., and not in the center of the figures. This ring structure has a very special meaning in connection with the binder content of the fibrous material, which is no more than 35% of the total surface of the material.

As can be seen from Figure 1 of the drawing, the rows of rings are offset in the lateral direction, and they can be arranged either in an overlapping or non-overlapping manner, as will be explained in more detail below. The fibers of the fleece are mainly parallel in the longitudinal direction of the fleece. Such a nonwoven fabric is z. B. made on a card. The binding agent is applied in the form of grooves 10, 12, 14, 16, 18, 20, 22, 23, 24, 26 and 28. The rings are arranged in parallel rows R, S, T, U and V that run across the grain. In this way the fibers, which are mainly oriented longitudinally in the web, are bound to the rings. The figures are, as mentioned; arranged offset from one another in the individual rows, and; ", vgr such that the binding agent sites are applied in a series of overlapping columns M, N, O, P and Q which are essentially parallel to the direction of the fiber orientation Pillars must have a width which is equal to the diameter of each binder ring and can cover a distance which is, for example, about 0.5 mm.An overlap zone greater than about 1.3 mm has no noticeably more beneficial effect on the transverse strength of the fleece The inner diameter of the binder rings is denoted by d.

In this way the fibers, which are mainly oriented longitudinally in the web, are connected to the rings. It is useful to arrange the rings in the longitudinal direction as far from each other as possible, but this way; that the spacing of the rings is not so great that it exceeds the average fiber length. However, the average fiber length is expediently greater than or equal to or twice as large as the spacing of the rings from one another, so that a fiber approximately intersects three rings. It can be assumed that many fibers are so long that they pass through more than two and probably more than three rings. The normal fiber length is, for example, on the order of about 5 cm, while the spacing of the rings is on average about 0.6 to 1.2 cm. Surprisingly, it has been found that the type of arrangement of the ring-bound points at a distance from one another - as already mentioned - has far better properties than the previously known fabrics. The maximum surface coverage by the binder is only 35% in contrast to the minimum surface coverage of 50% in the case of the known fabrics, the fabric according to the invention having a thoroughly satisfactory, even greater, strength.

It must be emphasized that the binder pattern with 35 % covered fleece surface represents the maximum according to the invention and that the actual percentage on the order of between about 10% and 15 0/0 lies. It can be considered relatively unusual, more than 20%, especially 35%, to be used, whereas the pattern of known fibers with its minimum at 50%, but the practical minimum still higher, namely at 60 %, lies.

Not to mention the reduction in the surface area covered with binder are the dynamic and kinematic conditions in the transverse expansion of the invention Substance as a result of the above-mentioned ring arrangement significantly different than the known Fabrics. The improvement in transverse strength is caused by the fact that the rings when stretching the fabric sideways according to the principle of the »Nuremberg scissors« or of the "parallelogram of forces" work, as shown in Fig. 2 and 3, that they form a parallelogram or a rhombus. While those in three places attached fibers are responsible for the lateral transverse strength of the fabric, the fibers, which are bound only in two places, only curl during transverse stretching of the substance. The fibers stretch again when there is a longitudinal force on the fabric is exercised, and the material regains its original structure without breaking of the fibers in the fabric occurs. The recovery of the original Structure must not be confused with elasticity. When the pulp is stretched or stretched in the transverse direction, there is a change in the fiber orientation instead of. This change is shown schematically in Fig.1a and 2a. During the As it extends, some of the unbonded fibers will curl or flex between them the binder surfaces out of the plane of the fabric and unbound fibers pulled out of the fabric layer. These broken fibers form a uniform one Nub or a soft, fluff-like surface on the surface of the fiber material and give the product a high degree of softness and fullness.

In Fig. 1 a, most of the fibers are essentially parallelized or oriented as shown by lines 60, 61 and 62. In Fig. 2 a is the fiber 60 'tends to have a sinusoidal, serpentine or zigzag pattern to describe. The fiber 63 'is practically its mirror image or its reflection, and the fiber 62 'between the bond pads is up out of the plane of the bond pads bent out.

Since the fiber web strength can be increased by increasing the extent of the overlap zone, the strength, in particular the transverse strength, of the material depends in part on the overlap zone. As mentioned, the overlap zone can be approximately 0.5 mm and preferably between 0.8 and 1.3 mm. The factors affecting transverse strength include the interrelated variables Y and b and the variable D (Fig. 1).

The elongation of the fabric is influenced by the distances D, Y and C. In general, the greater these distances, the greater the elongation. However, it is a feature of this annular binder surface pattern to impart good transverse elongation properties regardless of small changes in D, Y and C, provided that the overlap h is sufficient.

FIG. 4 shows a fiber fleece which only partially consists of oriented fibers. About 15 to 40% of the fibers forming the web are not oriented. The arrangement of the binding agent sites 110, 112, 114, 116, 118, 120, 121, 122 and 124 is parallel and offset to one another. The transverse distance a between the adjacent binding agent surfaces (e.g. 124 and 116; 122 and 120) is practically equal to the diameter D of a binding agent surface, e.g. B. 118. No overlap zone is provided here.

All of the above fibers can be converted into a special by transverse stretching soft, fluffy, pimpled product are transferred. A special Process for the production of a satisfactory knobbed cover or cover is the brushing of the fiber material, the material is opposed by bristles to the direction of movement of the fiber material, lightly brushed. The effect of the brushes is twofold. Firstly, the fabric structure should be opened upwards and secondly is intended to pull a substantial number of loose fibers out of the binder sites with an even nub or soft, fluff-like surface on the surface of the fiber is created.

Claims (4)

PATENT CLAIMS: 1. Non-woven fibrous web, consisting of a Fiber fleece, the fibers of which are predominantly aligned in the longitudinal direction of the web and are held together by a binder pattern, which has rows of figures, which are arranged in rows offset from one another in the longitudinal direction of the web and which optionally with those of the adjacent rows at their edge in the longitudinal direction overlap, characterized in that the figures are ring-shaped (in circular or Polygonal shape) and in the longitudinal direction of the web at a distance from each other are arranged which does not exceed the average fiber length, and that they do not overlap in the transverse direction of the web. 2. fibrous web according to claim 1, characterized in that the binding agent (10, 12, 14, 16, 18, 20, 22, 23, 24, 26 and 28 or 110, 112, 114, 116, 118, 120, 121 , 122 and 124) are arranged evenly in - possibly overlapping - columns (M, N, O, P and Q or M, N, O) which run parallel to one another and to the longitudinal direction of the web. 3. fibrous web according to claim 1 and 2, characterized in that it is stretched transversely so that torn fibers appear the surface of the web form knobs, and the binder pattern is arranged in this way is that it forms a multitude of sinusoidal fiber ribbons that face in opposite directions are arranged side by side and in a common plane, each band im is essentially the mirror image of the adjacent band. 4. fibrous web after Claims 1 and 2, characterized in that it is brushed in order to tear fibers, which knobs form on the surface of the track. Considered publications: U.S. Patent No. 2,545,952.