RU2596122C1 - Woven three-dimensional mesh - Google Patents

Abstract

FIELD: roads.

SUBSTANCE: invention relates to production of 3D woven frame meshes, which can be used as temporary road rolled out coating, as shock-absorbing coating of pipeline for protection against impact loads and reinforcing base for composite materials. Higher longitudinal flexibility of mesh is ensured by fact that it contains sections of warp threads that are woven with weft threads, and sections of warp threads overlap weft threads without formation of weaves. One rapport of threads of base contains 10 threads, one rapport of threads of woof contains 32 threads. Each thread base in rapport has 56 % locations of above weft threads and 44 % locations under weft threads. Alternating sections with small, with sections without weaves warp threads with weft threads forms twill weave 2/1 on four sections for each warp threads in the ornament on basis of except sixth, and on two sections for sixth warp threads.

EFFECT: sections of one thread are shifted relative to sections of adjacent threads.

1 cl, 12 dwg

Description

The invention relates to the production of composite materials, in particular to the manufacture of three-dimensional woven wireframe nets of a certain profile, consisting of longitudinal warp threads and transverse weft threads. The nets can be used as a temporary road rolling coating for laying it in off-road places and in places of difficult traffic, for example, on marshy or sandy soil. Grids can also be used as shock absorbing coatings for pipelines to protect them from shock loads and as a reinforcing base for composite materials.

The lattice for composite materials according to the patent of the Russian Federation for utility model No. 113200, B32B 7/02, 2012 is known. The lattice consists of vertical weft reinforcing high-modulus synthetic fibers and horizontal weft reinforcing high-modulus synthetic fibers forming rectangular cells, and soil and weft threads. The vertical and horizontal weft reinforcing threads are made of high-modulus complex polyester monofilaments with a strength of at least 0.5 kN, are interconnected and fixed in the lattice structure by two ground filament systems. The disadvantage is the complexity of manufacturing the lattice, its lack of flexibility for use as a coating for pipelines.

Known warp knitted multi-axial reinforcement lattice according to the patent of the Russian Federation for utility model No. 125519, B32B 7/02, 2013, consisting of a system of horizontal weft reinforcing high-modulus complex polyester monofilaments, a system of vertical weft reinforcing high-modulus complex polyester monofilaments, a system of diagonal weft monofilament reinforcing high-modulus polyester monofilaments connected in a certain way at intersections. The presence of a large number of reinforcing threads reduces the longitudinal flexibility of the lattice.

As the closest analogue to the claimed technical solution, a temporary surface coating was chosen for the movement of heavy vehicles on swampy or sandy soil according to the international application for invention No. 95/00388, D03D 23/00, 1995. The coating consists of a single-layer weaving of monofilament weft and warp. Each warp yarn is interwoven with weft yarns at half overlapping points of warp and weft yarns within the weft weave repeat pattern. The warp yarns lie freely at the remaining weave points, at each warp yarn a region of tight weave and a region of overlapping yarns are formed, followed by a region of free unwoven yarns, these regions alternate. The disadvantage is the low longitudinal flexibility of the lattice, due to the symmetry of the location of the protrusions on the surface, their identical dimensions and plain weave at the overlapping points of the warp and weft threads. The lack of flexibility of the grate prevents it from rolling up into rolls and further free rolling when covering the ground, and also causes difficulties when wrapping it around the pipeline.

The technical task of the invention is to improve the operational characteristics of the product.

The technical result is to increase the longitudinal flexibility of the grid.

The technical result is ensured by the fact that in a woven three-dimensional mesh containing sections on which warp threads are interwoven with weft threads, and areas on which warp threads overlap weft threads without weaving, according to the invention, one pattern of warp threads contains 10 threads, one rapport of threads the weft contains 32 threads, each warp thread in the rapport has 56% of the locations above the weft threads and 44% of the locations under the weft threads, alternating sections with weaves, with sections without weaving warp threads with weft Braz 2/1 twill weave at four sites for each warp yarns in a repeat pattern based on other than the sixth, and two sites for the sixth warp threads, one thread portions are arranged with a shift with respect to portions adjacent yarns.

The technical result is achieved due to the fact that the alternation of the sections of the weaves of each warp with the weft with areas where there are no weaves, and there are only free overlap of the warp over the weft in the form of canopies, forms protrusions and depressions on both sides of the mesh. Elongated in the direction of the weft pattern of the arrangement of threads in the rapport, containing 10 warp threads and 32 threads of the weft, allows you to get several asymmetrically located protrusions along the repeat of the weft with an unequal distance between the protrusions. Each warp thread in rapport has 56% locations above the weft threads and 44% locations under the weft threads. This, combined with the size of the rapport in the warp and in the weft, allows you to get three asymmetric, different from each other in the shape of the protrusion on the upper surface of the grid. The combination of these features ensures the optimal location of the protrusions, the optimal length of the recesses and the optimal height of the protrusions on the surface of the lattice so that it can be twisted into a roll without the forces causing its damage. The use of twill weaving 2/1 in the sections of each warp in the rapport is accompanied by the formation of short canopies, in which two warp threads are freely overlapped by one weft thread. Each warp thread, except the sixth one, in the warp rapport contains four sections with a twill weave; these sections are located on adjacent warp threads with a shift relative to each other. The sixth thread is central to the rapport composition, and the twill weave sections are located at its ends. Relative to the sixth thread, a symmetrical shift of the pattern occurs in the rapport from both its sides. The mesh in areas with awnings has greater flexibility compared to places of weaving, and the use of short canopies - 2/1 in twill weaves does not weaken the mesh and does not reduce its strength in these areas. Fulfillment within one rapport of sections with short canopies of the main threads over the weft and their location over the entire area of the rapport due to shifts of the canopies makes it possible to increase the longitudinal flexibility of the mesh without reducing its strength characteristics.

Thus, the longitudinal flexibility of the mesh is enhanced by the formation of asymmetrical and unevenly projected protrusions on its surface and by covering the grid area with a plurality of short canopies.

The figure 1 presents a General pattern of weaving one rapport of a three-dimensional grid.

The figure 2 presents the arrangement of all the threads of one rapport of a three-dimensional grid.

Figure 3 shows a section along the first warp.

Figure 4 shows a section along the second warp.

Figure 5 shows a section along the third warp.

Figure 6 shows a section along the fourth warp.

Figure 7 shows a section along the fifth warp.

Figure 8 shows a section along the sixth warp.

Figure 9 shows a section along the seventh warp.

Figure 10 shows a section along the eighth warp.

The figure 11 presents a section along the ninth warp.

Figure 12 shows a section along the tenth warp.

One rapport of the grid pattern has ten warp threads with numbers from 1 to 10 and thirty-two weft threads from 1 ′ to 32 ′. In the general picture of the weaving of one rapport of the mesh, black color denotes warp threads located above the weft threads, white color denotes warp threads located under the weft threads. Warp threads and weft threads are made of synthetic monofilaments such as polyester, polypropylene, polyethylene, polyamide. In addition, fiberglass, aramid and basalt yarns can be used in combination. Each warp thread is interwoven with only a part of the weft threads, in other places free basic overlapping canopies are formed. In places of free main floors, the main threads may not come in contact with the weft threads. In the locations of the canopies, the warp threads are pulled together, which ensures the formation of volumetric protrusions. All warp threads have a certain ratio of overlapping warp threads and weft overlaps within rapport. The table shows the values of the number of overlapping warp threads over the weft thread and the number of overlapping weft threads warp threads for each warp thread within the rapport.

Each warp yarn has 44% overlap with weft yarns in which the weft yarns are above the warp yarn and 56% of the warp yarns overlap over the weft yarns. Moreover, each warp thread has a specific weave pattern:

The warp thread 1 passes over the weft threads 1′-5 ′, passes under the thread 6 ′, passes over the weft threads 7′-8 ′, then under the weft thread 9 ′, over the threads 10′-11 ′, under the threads 12′-20 ′, Above the weft 21′-22 ′, under the weft thread 23 ′, above the weft 24 ′, under the weft 25 ′, then above 26′-27 ′, under 28 ′, then above the weft threads 29′-32 ′. Sites with twill weave are formed by threads 6-8, 9-11, 21-23, 25-27.

The warp thread 2 passes over the weft threads 1′-4 ′, passes under the thread 5 ′, passes over the weft threads 6′-7 ′, then under the weft thread 8 ′, above the thread 9 ′, under the thread 10 ′, above the weft 11 ′ -12 ′, under weft threads 13′-19 ′, above 20′-21 ′, under weft 22 ′, then above weft 23 ′, under weft 24 ′, above weft 25 ′, under weft 26 ′, above weft threads 27 '-28', under the weft 29 ', then over the threads of the weft 30'-32'. Sites with twill weave are formed by threads 5-7, 10-12, 20-22, 26-28.

The warp thread 3 passes over the weft threads 1′-3 ′, passes under the thread 4 ′, passes over the weft threads 5′-6 ′, then under the weft thread 7 ′, above the weft threads 8′-10 ′, under the weft thread 11 ′ above the weft 12′-13 ′, under the weft threads 14′-18 ′, above the weft 19′-20 ′, under the weft 21 ′, then above the weft 22 ′, under the weft 23′-25 ′, above the weft 26 ′, under the weft 27 ′, over the weft threads 28′-29 ′, under the weft 30 ′, then over the weft threads 31′-32 ′. Sites with twill weave are formed by threads 4-6, 11-13, 19-21, 27-29.

The warp thread 4 passes over the weft threads 1′-2 ′, passes under the weft thread 3 ′, passes over the weft threads 4′-5 ′, then under the weft thread 6 ′, over the weft threads 7′-11 ′, under the weft thread 12 ′, Above the weft 13′-14 ′, under the weft 15′-17 ′, under the weft 18′-19 ′, under the weft 20 ′, then over weft 21 ′, under weft 22′-26 ′, over weft 27 ′ , under the weft 28 ′, over the weft threads 29′-30 ′, under 31 ′, then over the weft thread 32 ′. Sites with twill weave are formed by threads 3-5, 12-14, 18-20, 28-30.

The warp thread 5 passes over the weft thread 1 ′, passes under the weft thread 2 ′, passes over the weft threads 3′-4 ′, then under the weft thread 5 ′, over the weft threads 6′-12 ′, under the weft thread 13 ′, above weft 14′-15 ′, under the thread weft 16 ′, above the weft 17′-18 ′, under the weft 19 ′, then over the weft 20 ′, under the weft 21′-27 ′, over the weft 28 ′, under the weft 29 ′ , above the weft threads 30′-31 ′, then under the weft thread 32 ′. Sites with twill weave are formed by threads 2-4, 13-15, 17-19, 29-31.

The warp thread 6 passes under the weft thread 1 ′, passes over the weft threads 2′-3 ′, passes under the weft thread 4 ′, then over the wefts 5′-13 ′ under the weft thread 14 ′, over the weft threads 15′-17 ′, beneath the weft 18 ′, above the weft 19 ′, under the weft 20′-28 ′, above the weft 29 ′, then under the weft 30 ′, above the weft 31′-32 ′. Sites with twill weave are formed by threads 6-3, 30-32.

Warp thread 7 passes over the weft thread 1 ′, under the weft thread 2 ′, passes over the weft threads 3′-4 ′, passes under the weft thread 5 ′, then over the weft 6′-12 ′ under the weft thread 13 ′, over the weft threads 14′-15 ′, under the weft 16 ′, over the weft 17′-18 ′, under the weft 19 ′, over the weft 20 ′, along the weft 21′-27 ′, over the weft 28 ′, then under the weft 29 ′ , above the weft threads 30′-31 ′ and under the weft thread 32 ′. Sites with twill weave are formed by threads 2-4, 13-15, 17-19, 29-31.

The warp thread 8 passes over the weft threads 1′-2 ′, under the weft thread 3 ′, passes over the weft threads 4′-5 ′, passes under the weft thread 6 ′, then over the weft 7′-11 ′ under the weft thread 12 ′, over the weft threads 13′-14 ′, under the weft threads 15′-17 ′, over the weft threads 18′-19 ′, under the weft 20 ′, over the weft 21 ′, under the weft threads 22′-26 ′, over the weft 27 ′ , further under the weft 28 ′, above the weft threads 29′-30 ′, under the weft thread 31 ′, above the weft thread 32 ′. Sites with twill weave are formed by threads 3-5, 12-14, 18-20, 28-30.

The warp thread 9 passes over the weft threads 1′-3 ′, under the weft thread 4 ′, passes over the threads 5′-6 ′, passes under the weft thread 7 ′, then over the wefts 8′-10 ′ under the weft thread 11 ′, above weft threads 12′-13 ′, under the weft threads 14′-18 ′, over the weft threads 19′-20 ′, under the weft 21 ′, over the weft 22 ′, under the weft threads 23′-25 ′, over the weft 26 ′, further under the weft 27 ′, above the weft threads 28′-29 ′, under the weft 30 ′ and above the weft 31′-32 ′. Sites with twill weave are formed by threads 4-6, 11-13, 19-21, 27-29.

The warp thread 10 passes over the weft threads 1′-4 ′, under the weft thread 5 ′, passes over the weft threads 6′-7 ′, passes under the weft thread 8 ′, then over the weft thread 9, under the weft thread 10 ′, above the weft 11′-12 ′, under the weft 13′-19 ′, above the weft 20′-21 ′, under the weft 22 ′, above the weft 23 ′, under the weft 24 ′, above the weft 25 ′, then under 26 ′ , above the weft threads 27′-28 ′ and under the weft thread 29 ′, above the weft threads 30′-32 ′. Sites with twill weave are formed by threads 5-7, 10-12, 20-22, 26-28.

Areas with weaves and free overlapping warp, located above and below relative to the weft threads, alternate within the rapport on the weft of one warp thread. This alternation of sections causes compression of the main threads in the longitudinal direction. For each subsequent warp, this alternation is partially repeated with a change in the number of intersections at the ends of the sections, which allows you to form a mesh relief.

The warp yarns of the woven three-dimensional mesh have a diameter of up to 0.80 mm, and the weft yarns have a diameter of up to 1.2 mm.

Three-dimensional woven mesh contains up to 1600 warp threads per meter and up to 1000 weft threads per meter.

Thus, the invention improves the longitudinal flexibility of the mesh.

Claims (1)

Woven three-dimensional mesh containing sections on which warp threads are interwoven with weft threads, and sections on which warp threads overlap weft threads with awnings without weaving, characterized in that one rapport of warp threads contains 10 threads, one rapport of weft threads contains 32 threads , each warp yarn in the rapport has 56% locations above the weft yarns and 44% of the locations under the weft yarns, alternating sections with weaves, with areas without weaving warp yarn weft forms a twill weave 2/1 on the black yreh portions for each warp yarns in a repeat pattern based on other than the sixth, and two sites for the sixth warp threads, with portions twill weave one thread arranged with a shift with respect to portions adjacent yarns.

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