CS244011B1 - Multi-layered braid with increased strength in the longitudinal and / or transverse direction - Google Patents

Abstract

The cutting is suitable for the use of non-technical textiles, for example in construction, as a base for asphalt boards. The subject of the invention is a multilayer interlaced fabric consisting of a basic component containing at least two planar fiber and/or thread formations, a reinforcing component containing a system of longitudinal and/or transverse thread formations and further of an interlaced thread or fiber bond that connects the basic and reinforcing components of the interlaced fabric. The essence lies in the fact that at least one reinforcing component, placed between the planar fiber and/or thread formations of the basic component of the interlaced fabric, is stabilized by clusters of fibers of the basic component, namely through at least two adjacent threads and between the systems of bonding points of the interlaced thread fiber bond.

Description

(45) Published: 16 11 87

FAULHABER ERTlN; BRÁZDIL MILAN, BRNO (54) Multilayer interlock with increased strength in longitudinal and / or transverse direction

The mowing is suitable for use in non-technical textiles, for example in construction, as a base for asphalt boards.

The subject matter of the present invention is a multilayer entanglement consisting of a base component comprising at least two planar fibrous and / or yarn formations, a reinforcing component comprising a plurality of longitudinal and / or transverse yarn formations, and an interlocking yarn or fiber weave connecting the base and reinforcing component of the roplet. . The principle is that the at least one reinforcing component disposed between the sheet fiber and / or yarn structures of the base strand component is stabilized by the aggregates of the base strand fibers over at least two adjacent yarns and between the bonding points of the interweaving thread strand.

BACKGROUND OF THE INVENTION The present invention relates to a multilayer interlock comprising a base and a reinforcing component in order to increase both its strength in longitudinal and / or transverse direction and its shape stability.

The base component consists of at least two planar fibrous and / or nile formations, and the reinforcing component is a system of longitudinal and / or transverse nile formations that are interconnected by an interwoven nile or fiber bond.

Knitting is known with shape stability in the longitudinal and transverse directions, and the shape stability in the knitting is caused by a warp knitted weave made of yarns of different melting temperatures.

Threads of lower melting temperature do not melt during the heat treatment of the entanglement and are bonded to the fibers of the planar fiber formation at the points of interweaving, i.e. at the points of entanglement of the web.

In this way, the desired shape stability is achieved, not the necessary strengths in the longitudinal and transverse directions of the entanglement, since these parameters cannot ensure merely the bonding of the fibers of the sheet at bonding points to the non-melted yarns strengthening the warp knitting.

Furthermore, tangles with increased strength parameters in the longitudinal and transverse direction are known which consist of planar fiber formations between which reinforcing elements in the form of strips of split foils, threads and the like are guided in both directions of the tangles.

The interlock of this structure comprises a fiber interlocking weave formed from the fibers of a single fiber formation that connects the sheet and reinforcing elements to the bonding structure.

In this case, however, the reinforcing elements are not stabilized between the bonding points of the fiber interlocking weave, so that they can be pulled under mechanical force. For this reason, the entanglement does not have the desired shape stability.

Also known are interleaves consisting of flat fiber structures containing fibers of different melting points. A characteristic feature of these interweaves is the reinforcing component on their surface in the longitudinal and transverse direction, which is stabilized to the interweave surface by a fiber bond formed by fibers of a single sheet fiber formation.

The reinforcing component is stabilized by the subsequent heat treatment of the interlock, at the bonding points of the reinforcing fiber interlocking bond with which the reinforcing component is in direct contact. A disadvantage of these entanglements is the placement of the reinforcing component on their surface, which, for example when using reinforcing glass threads, does not provide sufficient adhesion when applying asphalt or bituminous materials.

The described area also includes fabrics made thermoplastically from a fiber formation containing fibers of different melting points. Nile formations are randomly deposited between the fibers and longitudinal nile formations are deposited on both outer sides of the fabric, which fuse to the fibrous formation.

The fabric in this embodiment is intended especially for use on the base materials for the production of asphalt boards. From the point of view of the structure of this fabric, the main drawback is that the reinforcement formations in the longitudinal direction of the fabric are provided on both sides of the fiber structure on its surface.

By using, for example, glass fibers, the adhesion of the asphalt to the glass threads is reduced and the anchoring of the reinforcing structures to the surface of the fibrous structure is easily erosable.

It is an object of the present invention to overcome the above-mentioned disadvantages and disadvantages of the abovementioned known textiles for technical purposes, for example in the construction industry, which require switching of prescribed strength parameters in the longitudinal and transverse directions, requirements for shape stability under mechanical or weathering influences. adhesion of asphalt top bituminous materials.

A further object of the invention is to achieve these parameters and properties of the fabric at low basis weight and under economically advantageous conditions by interlacing.

To achieve these objectives, a multilayer interlace comprising a base and reinforcement component interconnected by an interlocking nylon or weave bond is formed, wherein the interlocking core component comprises at least two planar fiber and / or nile formations and the interlock reinforcement component of a plurality of longitudinal and / or transverse nile formations.

It is an object of the invention that at least one of the reinforcing components disposed between the flat fiber and / or nile formations of the base strand component is stabilized by the aggregate clusters of the base strand. These clusters of fibers are adhered or fused to a portion of the surface of the reinforcing component over at least two adjacent threads between the bonding points of the interlocking nile or fiber weave.

In one possible embodiment, the threads of the longitudinal and transverse reinforcing components may be stabilized together between at least two fertile fiber and / or nile formations of the base component. In another alternative embodiment, the yarns of the longitudinal and transverse reinforcing components may be stabilized separately in separate layers between at least two planar fibrous and / or nile formations of the base component.

The stabilization of the interlocking reinforcement component provided by the clusters of base component fibers between the interlock bonding points eliminates the internal stresses in the base component of the interlock caused by temperature variations as the weather changes.

The types of interlocks used so far for roofing asphalt boards also cause changes in their shape and thus tear off the asphalt board from the intermediate structures. In the interleaves made according to the invention, the internal stress caused by temperature changes and weathering is suppressed by non-melted bundles of fibers adhered to a portion of the surface of the reinforcing component.

The reason for placing the reinforcing component in the space between the bonding points of the knitting nile or fiber bond of at least two planar fiber formations is to achieve perfect adhesion of the entanglement surface to the asphalt or bituminous material deposits.

For this reason, reinforcing yarns, for example glass, are embedded within the interlock, not on its surface, so that it does not reduce the interlocking of the interlock when applying asphalt or bituminous materials.

BRIEF DESCRIPTION OF THE DRAWINGS The invention is explained in more detail in the accompanying drawings, illustrating to what extent exemplary alternative embodiments of a multilayer interlace are shown in a partial sectional perspective view. The individual drawings show, in Fig. 1, an interlock with a base component formed from two fertile fiber formations, a reinforcement component in the longitudinal direction, and an interlocking nile bond.

In Fig. 2 an interlock with a basic component of two fertile fiber structures, interposed with a reinforcing component in a transverse direction e through a nile bond, in Fig. 3 an interlock with a basic component ee of two fertile fiber structures, a longer reinforcement component in a longitudinal and transverse direction in Fig. 4, an interlock with a base component formed of three planar formations, two of which are fibrous and one externally nile, a reinforcing component interposed between the two fibrous formations and a reinforcing interlocking nile bond; and FIG. 5 shows an interlock with a base component of three planar fiber formations, between which a reinforcing component in the longitudinal and transverse direction and an interlocking nile bond are separately disposed.

Referring to FIG. 1, the multilayer interweave consists of a base component consisting of two superimposed fibrous formations 6 comprising fibers of different melting points between which yarns 4 of the longitudinal reinforcing component are disposed in the space 8 between the bonding points 8 formed by a nile interlocking bond. , chained.

The stabilization of the reinforcing component yarns 4 is ensured by the agglomerates of glued fibers 8 which are adhered to a portion of the yarn surface 4 of the longitudinal reinforcing component, in the space 8 between the bonding point sets 8.

FIG. 2 shows a multilayer entanglement according to the invention, consisting of a basic component of two superposed planar fibrous structures 6 containing fibers of different melting temperatures. Between these two planar fiber formations 8 are placed the threads 4 of the transverse reinforcing component in the space 6 between the bonding points 8 of the nile interlocking weave b.

The clusters of bonded fibers 4 of the sheeted fiber structures 4 stabilize the threads 6 of the reinforcing component against being pulled out by being glued from a part of their surface in the space 6 between the bonding points 8 of the nile interlocking bond.

According to FIG. 3, the multilayer interweave is composed of two superimposed planar fibrous structures 6 interconnected by a fiber interlocking bond 6. Between the two planar fiber formations 5, comprising fibers of different melting points, the threads 4 of the longitudinal reinforcement component and the threads of the transverse reinforcement component are laid crosswise in a space 2 between the bonding points 5 of the yarn interlocking bond.

In this case, the stabilization of the longitudinal reinforcement component threads and the transverse reinforcement component threads is ensured by the clusters of glued fibers from the two planar fiber formations 5 in such a way that the clusters are adhered to a portion of the surface of the longitudinal reinforcement component threads and the transverse reinforcement component threads. the space 8 between the bonding points 8 reinforcing the fiber interlocking bonds 8.

FIG. 4 shows an interlock according to the invention, which consists of a basic component consisting of two superposed planar fiber formations 4 on one side of the interlock and one of the interlocked planar thread formation 2 forming the other side of the interlock.

Between the two filamentous webs 6 containing fusible and non-fusible fibers, threads 6 of the longitudinal reinforcing component 6 are disposed in the space 6 between the bonding points 8 of the nile interlocking bond 6.

The fusible fibers from the sheeted fiber formations 6 formed clusters of glued fibers 6 connected to a portion of the yarn surface 5 of the longitudinal base component, thereby stabilizing it against being pulled out in the longitudinal direction of the entanglement. The planar nile formation 2 forms in the interlock a reinforcing component in the transverse direction and at the same time a face side of the interlock.

FIG. 5 shows a multilayer entanglement consisting of three superimposed layers of planar fiber formations 6 comprising, in addition to fibers of different melting points, also non-meltable fibers.

Threads 4 of the longitudinal reinforcing component 4 are disposed between the lower and intermediate planar formations 4 and between the intermediate and upper planar fiber structures 4 of the transverse reinforcing component. The mutual placement of the yarns of the longitudinal reinforcement component and the yarns of the transverse reinforcement component in one plane separated from one another by the cross between the fiber formations is petrified in the space 8 between the binding points 8 of the nile interweaving linkage 6.

The stabilization of the yarns 6 of the longitudinal reinforcement assembly is ensured by the clusters of knitted fibers 6 of the lower and middle fiber formation 6 in the space 2 between the tie points 8 of the nile bond 6, i.e. from the middle and upper planar fiber formation χ in the space 2 between the prison throws 2 of the weave 6, that is in the direction of the interweave.

Example 1

The Arachne M 50 splitter is provided with two sheets of fiber comprising PESs 6.7 dtex 80 mm and POPs 17 dtex 130 mm in a ratio of 80/20 PESs / POPs.

Each of the sheet fibrous structures has a basis weight of 70 g. b.

A set of 100 tex longitudinal glass threads of 300 threads per 1 meter width is interposed between these sheets. Smooth matt PESh 167 dtex is used for reinforcing chain link.

An interweave of 200 g basis weight is formed from the components. m, which is heat treated at a temperature of 180 to 190 ° C, at which the POPs of the filaments partially melt and adhere to the surface of the glass yarns embedded in the space between the bonding points of the chain interlocking bond, thereby stabilizing the interlocking glass yarns.

At the same time, the shape stability of the entanglement is created, which prevents its further shape change during longer processing, i.e. during wetting in the asphalt bath. The proplet has an average strength in the longitudinal direction of 715 N and a transverse direction of 230.4 It and is suitable for use in the manufacture of heavy insulating strips that are mechanically stressed.

Example 1 and d 2

Two flat fiber formations of secondary synthetic materials containing 50/40/10 PESs / PADs / POPs of different lengths and fineness are presented to the Arachne splitter M 40. The basis weight of each fiber formation is 70 g. m ^-2 .

A set of glass yarns of 100 tex fineness is placed between these planar shapes. In the longitudinal direction, they intertwine between the fiber bond binding points of one fibrous sheet formation and at the same time in the transverse direction between the fiber bonding binding points in the tangent width direction.

—2- »2

The entanglement thus produced has a basis weight of 210 g. with a proportion of 140 g. m of fiber component e 70 g. m ^-2 glass thread. On thermal fixation at 195 ° C, the POPs are fully melted and bonded with the other fibers to the surface of the glass yarns, thereby stabilizing against pulling. Proplet shows a balanced strength in the longitudinal and transverse directions at an average value of 585.5 N and an average elongation of 4% and is suitable as a basis for the production of heavy insulating strips.

Claims (3)

. OBJECT OF THE INVENTION Multilayer interlock having increased strength in the longitudinal and / or transverse direction and with increased shape stability, consisting of a base component comprising at least two planar fibrous and / or nile formations, a reinforcing component comprising a plurality of longitudinal and / or transverse nile formations, and an interlocking yarn or fiber weave that connects the base and the reinforcing component, characterized in that at least one reinforcing component (4, 5) positioned between the flat fiber and / or non-left-side structures (1, 2) of the basic interlocking component is stabilized by clusters of fibers ) base components which are adhered or fused to a portion of the surface of the reinforcement component (4, 5) at least over two adjacent yarns, between the bonding point sets (8) of the bonded nylon or fiber weave (6, 7). Multilayer interlock according to claim 1, characterized in that the components (4, 5) are stiffly stabilized together between at least the threads (1, 2) of the base component. that the yarns are longitudinally and transversely decorated with flat fiber minebe / s Multilayer interlock according to claim 1, characterized in that the yarns are longitudinal and transverse threads.